Publications
2024
Time-resolved vibrational spectroscopic study of molecular nanoaggregate photocatalysts
Li, C., Liu, T., Thwaites, O., Gardner, A. M., Sazanovich, I. V., Yang, H., . . . Cowan, A. J. (2024). Time-resolved vibrational spectroscopic study of molecular nanoaggregate photocatalysts. Chemical Science. doi:10.1039/d4sc03825h
Nanoscale covalent organic frameworks for enhanced photocatalytic hydrogen production.
Zhao, W., Luo, L., Cong, M., Liu, X., Zhang, Z., Bahri, M., . . . Cooper, A. I. (2024). Nanoscale covalent organic frameworks for enhanced photocatalytic hydrogen production.. Nature communications, 15(1), 6482. doi:10.1038/s41467-024-50839-3
Sequential closed-loop Bayesian optimization as a guide for organic molecular metallophotocatalyst formulation discovery.
Li, X., Che, Y., Chen, L., Liu, T., Wang, K., Liu, L., . . . Cooper, A. I. (2024). Sequential closed-loop Bayesian optimization as a guide for organic molecular metallophotocatalyst formulation discovery.. Nature chemistry, 16(8), 1286-1294. doi:10.1038/s41557-024-01546-5
Computationally guided synthesis of a hierarchical [4[2+3]+6] porous organic ‘cage of cages’
Zhu, Q., Qu, H., Avci, G., Hafizi, R., Zhao, C., Day, G. M., . . . Cooper, A. I. (n.d.). Computationally guided synthesis of a hierarchical [4[2+3]+6] porous organic ‘cage of cages’. Nature Synthesis, 3(7), 825-834. doi:10.1038/s44160-024-00531-7
Self-Assembly of Chiral Porous Metal-Organic Polyhedra from Trianglsalen Macrocycles.
He, D., Ji, H., Liu, T., Yang, M., Clowes, R., Little, M. A., . . . Cooper, A. I. (2024). Self-Assembly of Chiral Porous Metal-Organic Polyhedra from Trianglsalen Macrocycles.. Journal of the American Chemical Society, 146(25), 17438-17445. doi:10.1021/jacs.4c04928
Screening potential dye sensitizers for water splitting photocatalysts using a genetic algorithm.
Liu, T., Chen, L., Wang, X., & Cooper, A. I. (2024). Screening potential dye sensitizers for water splitting photocatalysts using a genetic algorithm.. Physical chemistry chemical physics : PCCP, 26(23), 16847-16858. doi:10.1039/d4cp01487a
Exploration of the polymorphic solid-state landscape of an amide-linked organic cage using computation and automation.
Shields, C. E., Fellowes, T., Slater, A. G., Cooper, A. I., Andrews, K. G., & Szczypiński, F. T. (2024). Exploration of the polymorphic solid-state landscape of an amide-linked organic cage using computation and automation.. Chemical communications (Cambridge, England), 60(47), 6023-6026. doi:10.1039/d4cc01407c
Porous isoreticular non-metal organic frameworks.
O'Shaughnessy, M., Glover, J., Hafizi, R., Barhi, M., Clowes, R., Chong, S. Y., . . . Cooper, A. I. (2024). Porous isoreticular non-metal organic frameworks.. Nature, 630(8015), 102-108. doi:10.1038/s41586-024-07353-9
Nanoscale Covalent Organic Frameworks for Enhanced Photocatalytic Hydrogen Production
Conjugated Polymer/Recombinant <i>Escherichia coli</i> Biohybrid Systems for Photobiocatalytic Hydrogen Production.
Yang, Y., Zwijnenburg, M. A., Gardner, A. M., Adamczyk, S., Yang, J., Sun, Y., . . . Cooper, A. I. (2024). Conjugated Polymer/Recombinant <i>Escherichia coli</i> Biohybrid Systems for Photobiocatalytic Hydrogen Production.. ACS nano, 18(21), 13484-13495. doi:10.1021/acsnano.3c10668
Gas Uptake and Thermodynamics in Porous Liquids Elucidated by <sup>129</sup>Xe NMR.
Mailhiot, S. E., Peuravaara, P., Egleston, B. D., Kearsey, R. J., Mareš, J., Komulainen, S., . . . Telkki, V. -V. (2024). Gas Uptake and Thermodynamics in Porous Liquids Elucidated by <sup>129</sup>Xe NMR.. The journal of physical chemistry letters, 15(20), 5323-5330. doi:10.1021/acs.jpclett.4c00223
2D to 3D Reconstruction of Boron-Linked Covalent-Organic Frameworks.
Wang, X., Fellowes, T., Bahri, M., Qu, H., Li, B., Niu, H., . . . Cooper, A. I. (2024). 2D to 3D Reconstruction of Boron-Linked Covalent-Organic Frameworks.. Journal of the American Chemical Society, 146(20), 14128-14135. doi:10.1021/jacs.4c02673
Accelerated discovery of molecular nanojunction photocatalysts for hydrogen evolution by using automated screening and flow synthesis
Zhang, W., Yu, M., Liu, T., Cong, M., Liu, X., Yang, H., . . . Cooper, A. I. (n.d.). Accelerated discovery of molecular nanojunction photocatalysts for hydrogen evolution by using automated screening and flow synthesis. Nature Synthesis. doi:10.1038/s44160-024-00494-9
Modular, multi-robot integration of laboratories: an autonomous workflow for solid-state chemistry.
Lunt, A. M., Fakhruldeen, H., Pizzuto, G., Longley, L., White, A., Rankin, N., . . . Chong, S. Y. (2024). Modular, multi-robot integration of laboratories: an autonomous workflow for solid-state chemistry.. Chemical science, 15(7), 2456-2463. doi:10.1039/d3sc06206f
Fine-tuning GPT-3 for machine learning electronic and functional properties of organic molecules.
Xie, Z., Evangelopoulos, X., Omar, Ö. H., Troisi, A., Cooper, A. I., & Chen, L. (2024). Fine-tuning GPT-3 for machine learning electronic and functional properties of organic molecules.. Chemical science, 15(2), 500-510. doi:10.1039/d3sc04610a
2023
Synthesis of a hierarchical porous organic [4[2+3]+6] ‘cage of cages’
Soft Hydrogen-Bonded Organic Frameworks Constructed Using a Flexible Organic Cage Hinge.
Zhu, Q., Wei, L., Zhao, C., Qu, H., Liu, B., Fellowes, T., . . . Little, M. A. (2023). Soft Hydrogen-Bonded Organic Frameworks Constructed Using a Flexible Organic Cage Hinge.. Journal of the American Chemical Society, 145(42), 23352-23360. doi:10.1021/jacs.3c09246
Go with the flow: deep learning methods for autonomous viscosity estimations.
Walker, M., Pizzuto, G., Fakhruldeen, H., & Cooper, A. I. (2023). Go with the flow: deep learning methods for autonomous viscosity estimations.. Digital discovery, 2(5), 1540-1547. doi:10.1039/d3dd00109a
Experimental Confirmation of a Predicted Porous Hydrogen‐Bonded Organic Framework
Shields, C. E., Wang, X., Fellowes, T., Clowes, R., Chen, L., Day, G. M., . . . Cooper, A. I. (2023). Experimental Confirmation of a Predicted Porous Hydrogen‐Bonded Organic Framework. Angewandte Chemie, 135(34). doi:10.1002/ange.202303167
Frontispiece: Experimental Confirmation of a Predicted Porous Hydrogen‐Bonded Organic Framework
Shields, C. E., Wang, X., Fellowes, T., Clowes, R., Chen, L., Day, G. M., . . . Cooper, A. I. (2023). Frontispiece: Experimental Confirmation of a Predicted Porous Hydrogen‐Bonded Organic Framework. Angewandte Chemie International Edition, 62(34). doi:10.1002/anie.202383461
Frontispiz: Experimental Confirmation of a Predicted Porous Hydrogen‐Bonded Organic Framework
Shields, C. E., Wang, X., Fellowes, T., Clowes, R., Chen, L., Day, G. M., . . . Cooper, A. I. (2023). Frontispiz: Experimental Confirmation of a Predicted Porous Hydrogen‐Bonded Organic Framework. Angewandte Chemie, 135(34). doi:10.1002/ange.202383461
Making the connections: physical and electric interactions in biohybrid photosynthetic systems
Yang, Y., Liu, L. -N., Tian, H., Cooper, A. I., & Sprick, R. S. (2023). Making the connections: physical and electric interactions in biohybrid photosynthetic systems. ENERGY & ENVIRONMENTAL SCIENCE, 16(10), 4305-4319. doi:10.1039/d3ee01265d
Autonomous biomimetic solid dispensing using a dual-arm robotic manipulator
Jiang, Y., Fakhruldeen, H., Pizzuto, G., Longley, L., He, A., Dai, T., . . . Cooper, A. I. (n.d.). Autonomous biomimetic solid dispensing using a dual-arm robotic manipulator. Digital Discovery, 2(6), 1733-1744. doi:10.1039/d3dd00075c
Experimental Confirmation of a Predicted Porous Hydrogen-bonded Organic Framework
Cooper, A., Little, M., Slater, A., Ward, J., Shields, C., Wang, X., . . . Clowes, R. (2023). Experimental Confirmation of a Predicted Porous Hydrogen-bonded Organic Framework. Angewandte Chemie International Edition. doi:10.1002/anie.202303167
Synthetic engineering of a new biocatalyst encapsulating [NiFe]-hydrogenases for enhanced hydrogen production
Jiang, Q., Li, T., Yang, J., Aitchison, C. M., Huang, J., Chen, Y., . . . Liu, L. -N. (2023). Synthetic engineering of a new biocatalyst encapsulating [NiFe]-hydrogenases for enhanced hydrogen production. JOURNAL OF MATERIALS CHEMISTRY B, 11(12), 2684-2692. doi:10.1039/d2tb02781j
Packing-induced selectivity switching in molecular nanoparticle photocatalysts for hydrogen and hydrogen peroxide production
Yang, H., Li, C., Liu, T., Fellowes, T., Chong, S. Y., Catalano, L., . . . Cooper, A. I. (n.d.). Packing-induced selectivity switching in molecular nanoparticle photocatalysts for hydrogen and hydrogen peroxide production. Nature Nanotechnology. doi:10.1038/s41565-022-01289-9
Competitive aminal formation during the synthesis of a highly soluble, isopropyl-decorated imine porous organic cage
Kearsey, R. J., Tarzia, A., Little, M. A., Brand, M. C., Clowes, R., Jelfs, K. E., . . . Greenaway, R. L. (2023). Competitive aminal formation during the synthesis of a highly soluble, isopropyl-decorated imine porous organic cage. CHEMICAL COMMUNICATIONS, 59(25), 3731-3734. doi:10.1039/d3cc00072a
Investigating the factors that influence sacrificial hydrogen evolution activity for three structurally- related molecular photocatalysts: thermodynamic driving force, excited-state dynamics, and surface interaction with cocatalysts
Liu, T., Chen, L., Li, X., & Cooper, A. I. I. (2023). Investigating the factors that influence sacrificial hydrogen evolution activity for three structurally- related molecular photocatalysts: thermodynamic driving force, excited-state dynamics, and surface interaction with cocatalysts. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 25(4), 3494-3501. doi:10.1039/d2cp04039e
Photoresponsive Type III Porous Liquids
Brand, M. C. C., Rankin, N., Cooper, A. I. I., & Greenaway, R. L. L. (2023). Photoresponsive Type III Porous Liquids. CHEMISTRY-A EUROPEAN JOURNAL, 29(4). doi:10.1002/chem.202202848
2022
Photoinduced inverse vulcanization
Jia, J., Liu, J., Wang, Z. -Q., Liu, T., Yan, P., Gong, X. -Q., . . . Quan, Z. -J. (2022). Photoinduced inverse vulcanization. Nature Chemistry. doi:10.1038/s41557-022-01049-1
Targeted design of porous materials without strong, directional interactions
O'Shaughnessy, M., Spackman, P. R., Little, M. A., Catalano, L., James, A., Day, G. M., & Cooper, A. I. (2022). Targeted design of porous materials without strong, directional interactions. CHEMICAL COMMUNICATIONS, 58(95), 13254-13257. doi:10.1039/d2cc04682b
Discovery of a Covalent Triazine Framework Photocatalyst for Visible-Light-Driven Chemical Synthesis using High-Throughput Screening
Vijayakrishnan, S., Ward, J. W., & Cooper, A. I. (n.d.). Discovery of a Covalent Triazine Framework Photocatalyst for Visible-Light-Driven Chemical Synthesis using High-Throughput Screening. ACS Catalysis, 10057-10064. doi:10.1021/acscatal.2c02743
Hydrogen Isotope Separation Using a Metal-Organic Cage Built from Macrocycles
He, D., Zhang, L., Liu, T., Clowes, R., Little, M. A., Liu, M., . . . Cooper, A. I. (2022). Hydrogen Isotope Separation Using a Metal-Organic Cage Built from Macrocycles. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 61(32). doi:10.1002/anie.202202450
Hydrogen Isotope Separation Using a Metal–Organic Cage Built from Macrocycles
He, D., Zhang, L., Liu, T., Clowes, R., Little, M. A., Liu, M., . . . Cooper, A. I. (2022). Hydrogen Isotope Separation Using a Metal–Organic Cage Built from Macrocycles. Angewandte Chemie, 134(32). doi:10.1002/ange.202202450
Covalent triazine-based frameworks with cobalt-loading for visible light-driven photocatalytic water oxidation
Chen, H., Gardner, A. M., Lin, G., Zhao, W., Bahri, M., Browning, N. D., . . . Cooper, A. I. (2022). Covalent triazine-based frameworks with cobalt-loading for visible light-driven photocatalytic water oxidation. CATALYSIS SCIENCE & TECHNOLOGY, 12(17), 5442-5452. doi:10.1039/d2cy00773h
Accelerated Synthesis and Discovery of Covalent Organic Framework Photocatalysts for Hydrogen Peroxide Production
Zhao, W., Yan, P., Li, B., Bahri, M., Liu, L., Zhou, X., . . . Cooper, A. I. (2022). Accelerated Synthesis and Discovery of Covalent Organic Framework Photocatalysts for Hydrogen Peroxide Production. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 144(22), 9902-9909. doi:10.1021/jacs.2c02666
Analogy Powered by Prediction and Structural Invariants: Computationally Led Discovery of a Mesoporous Hydrogen-Bonded Organic Cage Crystal
Zhu, Q., Johal, J., Widdowson, D. E., Pang, Z., Li, B., Kane, C. M., . . . Cooper, A. I. (2022). Analogy Powered by Prediction and Structural Invariants: Computationally Led Discovery of a Mesoporous Hydrogen-Bonded Organic Cage Crystal. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 144(22), 9893-9901. doi:10.1021/jacs.2c02653
A Pyrene-4,5,9,10-Tetraone-Based Covalent Organic Framework Delivers High Specific Capacity as a Li-Ion Positive Electrode
Gao, H., Neale, A. R., Zhu, Q., Bahri, M., Wang, X., Yang, H., . . . Cooper, A. I. (2022). A Pyrene-4,5,9,10-Tetraone-Based Covalent Organic Framework Delivers High Specific Capacity as a Li-Ion Positive Electrode. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 144(21), 9434-9442. doi:10.1021/jacs.2c02196
Room temperature all-solid-state lithium batteries based on a soluble organic cage ionic conductor
Li, J., Qi, J., Jin, F., Zhang, F., Zheng, L., Tang, L., . . . Chen, L. (2022). Room temperature all-solid-state lithium batteries based on a soluble organic cage ionic conductor. NATURE COMMUNICATIONS, 13(1). doi:10.1038/s41467-022-29743-1
Reconstructed covalent organic frameworks.
Zhang, W., Chen, L., Dai, S., Zhao, C., Ma, C., Wei, L., . . . Cooper, A. I. (2022). Reconstructed covalent organic frameworks.. Nature, 604(7904), 72-79. doi:10.1038/s41586-022-04443-4
A smart and responsive crystalline porous organic cage membrane with switchable pore apertures for graded molecular sieving
He, A., Jiang, Z., Wu, Y., Hussain, H., Rawle, J., Briggs, M. E., . . . Cooper, A. I. (2022). A smart and responsive crystalline porous organic cage membrane with switchable pore apertures for graded molecular sieving. NATURE MATERIALS, 21(4), 463-+. doi:10.1038/s41563-021-01168-z
Using sound to synthesize covalent organic frameworks in water
Zhao, W., Yan, P., Yang, H., Bahri, M., James, A. M., Chen, H., . . . Cooper, A. I. (2022). Using sound to synthesize covalent organic frameworks in water. Nature Synthesis, 1(1), 87-95. doi:10.1038/s44160-021-00005-0
2021
Modular Type III Porous Liquids Based on Porous Organic Cage Microparticles
Kai, A., Egleston, B. D., Tarzia, A., Clowes, R., Briggs, M. E., Jelfs, K. E., . . . Greenaway, R. L. (2021). Modular Type III Porous Liquids Based on Porous Organic Cage Microparticles. ADVANCED FUNCTIONAL MATERIALS, 31(51). doi:10.1002/adfm.202106116
Linear Conjugated Polymers for Solar-Driven Hydrogen Peroxide Production: The Importance of Catalyst Stability
Liu, L., Gao, M. -Y., Yang, H., Wang, X., Li, X., & Cooper, A. I. (2021). Linear Conjugated Polymers for Solar-Driven Hydrogen Peroxide Production: The Importance of Catalyst Stability. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 143(46), 19287-19293. doi:10.1021/jacs.1c09979
Organic cage inclusion crystals exhibiting guest-enhanced multiphoton harvesting
Ning, G. -H., Cui, P., Sazanovich, I. V., Pegg, J. T., Zhu, Q., Pang, Z., . . . Cooper, A. I. (2021). Organic cage inclusion crystals exhibiting guest-enhanced multiphoton harvesting. CHEM, 7(11), 3157-3170. doi:10.1016/j.chempr.2021.09.016
Time-Resolved Raman Spectroscopy of Polaron Formation in a Polymer Photocatalyst
Piercy, V. L., Saeed, K. H., Prentice, A. W., Neri, G., Li, C., Gardner, A. M., . . . Cowan, A. J. (2021). Time-Resolved Raman Spectroscopy of Polaron Formation in a Polymer Photocatalyst. JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 12(44), 10899-10905. doi:10.1021/acs.jpclett.1c03073
Polymeric Fiber Sorbents Embedded with Porous Organic Cages
Borne, I., He, D., DeWitt, S. J. A., Liu, M., Cooper, A. I., Jones, C. W., & Lively, R. P. (2021). Polymeric Fiber Sorbents Embedded with Porous Organic Cages. ACS APPLIED MATERIALS & INTERFACES, 13(39), 47118-47126. doi:10.1021/acsami.1c12002
Integrated Covalent Organic Framework/Carbon Nanotube Composite as Li-Ion Positive Electrode with Ultra-High Rate Performance
Gao, H., Zhu, Q., Neale, A. R., Bahri, M., Wang, X., Yang, H., . . . Cooper, A. I. (2021). Integrated Covalent Organic Framework/Carbon Nanotube Composite as Li-Ion Positive Electrode with Ultra-High Rate Performance. ADVANCED ENERGY MATERIALS, 11(39). doi:10.1002/aenm.202101880
A Cubic 3D Covalent Organic Framework with nbo Topology
Wang, X., Bahri, M., Fu, Z., Little, M. A., Liu, L., Niu, H., . . . Cooper, A. I. (2021). A Cubic 3D Covalent Organic Framework with nbo Topology. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 143(37), 15011-15016. doi:10.1021/jacs.1c08351
Melt-quenched porous organic cage glasses
Brand, M. C., Greenwell, F., Clowes, R., Egleston, B. D., Kai, A., Cooper, A. I., . . . Greenaway, R. L. (2021). Melt-quenched porous organic cage glasses. JOURNAL OF MATERIALS CHEMISTRY A, 9(35), 19807-19816. doi:10.1039/d1ta01906f
Photocatalytic polymers of intrinsic microporosity for hydrogen production from water
Bai, Y., Wilbraham, L., Gao, H., Clowes, R., Yang, H., Zwijnenburg, M. A., . . . Sprick, R. S. (2021). Photocatalytic polymers of intrinsic microporosity for hydrogen production from water. JOURNAL OF MATERIALS CHEMISTRY A, 9(35), 19958-19964. doi:10.1039/d1ta03098a
The changing state of porous materials
Bennett, T. D., Coudert, F. -X., James, S. L., & Cooper, A. I. (2021). The changing state of porous materials. NATURE MATERIALS, 20(9), 1179-1187. doi:10.1038/s41563-021-00957-w
Acetylene-linked conjugated polymers for sacrificial photocatalytic hydrogen evolution from water
Liu, L., Kochman, M. A., Xu, Y., Zwijnenburg, M. A., Cooper, A. I., & Sprick, R. S. (2021). Acetylene-linked conjugated polymers for sacrificial photocatalytic hydrogen evolution from water. JOURNAL OF MATERIALS CHEMISTRY A, 9(32), 17242-17248. doi:10.1039/d1ta04288b
Combining machine learning and high-throughput experimentation to discover photocatalytically active organic molecules
Li, X., Maffettone, P. M., Che, Y., Liu, T., Chen, L., & Cooper, A. I. (2021). Combining machine learning and high-throughput experimentation to discover photocatalytically active organic molecules. CHEMICAL SCIENCE, 12(32), 10742-10754. doi:10.1039/d1sc02150h
Accelerating computational discovery of porous solids through improved navigation of energy-structure-function maps
Pyzer-Knapp, E. O., Chen, L., Day, G. M., & Cooper, A. I. (2021). Accelerating computational discovery of porous solids through improved navigation of energy-structure-function maps. SCIENCE ADVANCES, 7(33). doi:10.1126/sciadv.abi4763
Innenrücktitelbild: SO<sub>2</sub> Capture Using Porous Organic Cages (Angew. Chem. 32/2021)
Martínez‐Ahumada, E., He, D., Berryman, V., López‐Olvera, A., Hernandez, M., Jancik, V., . . . Liu, M. (2021). Innenrücktitelbild: SO<sub>2</sub> Capture Using Porous Organic Cages (Angew. Chem. 32/2021). Angewandte Chemie, 133(32), 17891. doi:10.1002/ange.202107069
Inside Back Cover: SO<sub>2</sub> Capture Using Porous Organic Cages (Angew. Chem. Int. Ed. 32/2021)
Martínez‐Ahumada, E., He, D., Berryman, V., López‐Olvera, A., Hernandez, M., Jancik, V., . . . Liu, M. (2021). Inside Back Cover: SO<sub>2</sub> Capture Using Porous Organic Cages (Angew. Chem. Int. Ed. 32/2021). Angewandte Chemie International Edition, 60(32), 17747. doi:10.1002/anie.202107069
SO<sub>2</sub> Capture Using Porous Organic Cages
Martinez-Ahumada, E., He, D., Berryman, V., Lopez-Olvera, A., Hernandez, M., Jancik, V., . . . Liu, M. (2021). SO<sub>2</sub> Capture Using Porous Organic Cages. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 60(32), 17556-17563. doi:10.1002/anie.202104555
SO<sub>2</sub> Capture Using Porous Organic Cages
Martínez‐Ahumada, E., He, D., Berryman, V., López‐Olvera, A., Hernandez, M., Jancik, V., . . . Liu, M. (2021). SO<sub>2</sub> Capture Using Porous Organic Cages. Angewandte Chemie, 133(32), 17697-17704. doi:10.1002/ange.202104555
Tectonic shifts in framework chemistry
Cooper, A. I. (2021). Tectonic shifts in framework chemistry. NATURE CHEMISTRY, 13(7), 620-621. doi:10.1038/s41557-021-00741-y
Dynamics in Flexible Pillar[<i>n</i>]arenes Probed by Solid-State NMR
Hughes, A. R., Liu, M., Paul, S., Cooper, A. I., & Blanc, F. (2021). Dynamics in Flexible Pillar[<i>n</i>]arenes Probed by Solid-State NMR. JOURNAL OF PHYSICAL CHEMISTRY C, 125(24), 13370-13381. doi:10.1021/acs.jpcc.1c02046
Creating porosity in a trianglimine macrocycle by heterochiral pairing
He, D., Clowes, R., Little, M. A., Liu, M., & Cooper, A. I. (2021). Creating porosity in a trianglimine macrocycle by heterochiral pairing. CHEMICAL COMMUNICATIONS, 57(50), 6141-6144. doi:10.1039/d1cc01650d
Crystallography companion agent for high-throughput materials discovery
Maffettone, P. M., Banko, L., Cui, P., Lysogorskiy, Y., Little, M. A., Olds, D., . . . Cooper, A. I. (2021). Crystallography companion agent for high-throughput materials discovery. NATURE COMPUTATIONAL SCIENCE, 1(4), 290-297. doi:10.1038/s43588-021-00059-2
Probing Dynamics of Water Mass Transfer in Organic Porous Photocatalyst Water-Splitting Materials by Neutron Spectroscopy
Zbiri, M., Aitchison, C. M., Sprick, R. S., Cooper, A. I., & Guilbert, A. A. Y. (2021). Probing Dynamics of Water Mass Transfer in Organic Porous Photocatalyst Water-Splitting Materials by Neutron Spectroscopy. CHEMISTRY OF MATERIALS, 33(4), 1363-1372. doi:10.1021/acs.chemmater.0c04425
Photocatalytic syngas production using conjugated organic polymers
Fu, Z., Vogel, A., Zwijnenburg, M. A., Cooper, A. I., & Sprick, R. S. (2021). Photocatalytic syngas production using conjugated organic polymers. JOURNAL OF MATERIALS CHEMISTRY A, 9(7), 4291-4296. doi:10.1039/d0ta09613j
Bottom-up wet-chemical synthesis of a two-dimensional porous carbon material with high supercapacitance using a cascade coupling/cyclization route
Xu, Y., Sprick, R. S., Brownbill, N. J., Blanc, F., Li, Q., Ward, J. W., . . . Cooper, A. I. (n.d.). Bottom-up wet-chemical synthesis of a two-dimensional porous carbon material with high supercapacitance using a cascade coupling/cyclization route. Journal of Materials Chemistry A, 9(6), 3303-3308. doi:10.1039/d0ta11649a
Digital navigation of energy-structure-function maps for hydrogen-bonded porous molecular crystals
Zhao, C., Chen, L., Che, Y., Pang, Z., Wu, X., Lu, Y., . . . Cooper, A. I. (2021). Digital navigation of energy-structure-function maps for hydrogen-bonded porous molecular crystals. NATURE COMMUNICATIONS, 12(1). doi:10.1038/s41467-021-21091-w
Exploring cooperative porosity in organic cage crystals using <i>in situ</i> diffraction and molecular simulations
Chen, L., Che, Y., Cooper, A. I., & Chong, S. Y. (2021). Exploring cooperative porosity in organic cage crystals using <i>in situ</i> diffraction and molecular simulations. FARADAY DISCUSSIONS, 225(0), 100-117. doi:10.1039/d0fd00022a
Correction to "Tracking Charge Transfer to Residual Metal Clusters in Conjugated Polymers for Photocatalytic Hydrogen Evolution".
Sachs, M., Cha, H., Kosco, J., Aitchison, C. M., Francàs, L., Corby, S., . . . Durrant, J. R. (2021). Correction to "Tracking Charge Transfer to Residual Metal Clusters in Conjugated Polymers for Photocatalytic Hydrogen Evolution".. Journal of the American Chemical Society, 143(1), 524. doi:10.1021/jacs.0c12455
2020
Nano-assemblies of a soluble conjugated organic polymer and an inorganic semiconductor for sacrificial photocatalytic hydrogen production from water.
Yang, H., Amari, H., Liu, L., Zhao, C., Gao, H., He, A., . . . Cooper, A. I. (2020). Nano-assemblies of a soluble conjugated organic polymer and an inorganic semiconductor for sacrificial photocatalytic hydrogen production from water.. Nanoscale. doi:10.1039/d0nr05801g
Covalent Organic Framework Nanosheets Embedding Single Cobalt Sites for Photocatalytic Reduction of Carbon Dioxide
Wang, X., Fu, Z., Zheng, L., Zhao, C., Wang, X., Chong, S. Y., . . . Cooper, A. I. (2020). Covalent Organic Framework Nanosheets Embedding Single Cobalt Sites for Photocatalytic Reduction of Carbon Dioxide. CHEMISTRY OF MATERIALS, 32(21), 9107-9114. doi:10.1021/acs.chemmater.0c01642
Reprogramming bacterial protein organelles as a nanoreactor for hydrogen production
Li, T., Jiang, Q., Huang, J., Aitchison, C. M., Huang, F., Yang, M., . . . Liu, L. -N. (n.d.). Reprogramming bacterial protein organelles as a nanoreactor for hydrogen production. Nature Communications, 11. doi:10.1038/s41467-020-19280-0
Crosslinked Polyimide and Reduced Graphene Oxide Composites as Long Cycle Life Positive Electrode for Lithium-Ion Cells
Gao, H., Tian, B., Yang, H., Neale, A. R., Little, M. A., Sprick, R. S., . . . Cooper, A. I. (2020). Crosslinked Polyimide and Reduced Graphene Oxide Composites as Long Cycle Life Positive Electrode for Lithium-Ion Cells. CHEMSUSCHEM, 13(20), 5571-5579. doi:10.1002/cssc.202001389
The Chemistry of Porous Organic Molecular Materials
Little, M. A., & Cooper, A. I. (2020). The Chemistry of Porous Organic Molecular Materials. ADVANCED FUNCTIONAL MATERIALS, 30(41). doi:10.1002/adfm.201909842
3D Cage COFs: A Dynamic Three-Dimensional Covalent Organic Framework with High-Connectivity Organic Cage Nodes.
Zhu, Q., Wang, X., Clowes, R., Cui, P., Chen, L., Little, M. A., & Cooper, A. I. (2020). 3D Cage COFs: A Dynamic Three-Dimensional Covalent Organic Framework with High-Connectivity Organic Cage Nodes.. Journal of the American Chemical Society. doi:10.1021/jacs.0c07732
Photocatalyst Z-scheme system composed of a linear conjugated polymer and BiVO<sub>4</sub>for overall water splitting under visible light
Bai, Y., Nakagawa, K., Cowan, A. J., Aitchison, C. M., Yamaguchi, Y., Zwijnenburg, M. A., . . . Cooper, A. I. (2020). Photocatalyst Z-scheme system composed of a linear conjugated polymer and BiVO<sub>4</sub>for overall water splitting under visible light. JOURNAL OF MATERIALS CHEMISTRY A, 8(32), 16283-16290. doi:10.1039/d0ta04754f
Water Oxidation with Cobalt-Loaded Linear Conjugated Polymer Photocatalysts
Sprick, R. S., Chen, Z., Cowan, A. J., Bai, Y., Aitchison, C. M., Fang, Y., . . . Wang, X. (2020). Water Oxidation with Cobalt-Loaded Linear Conjugated Polymer Photocatalysts. Angewandte Chemie International Edition. doi:10.1002/anie.202008000
Water Oxidation with Cobalt‐Loaded Linear Conjugated Polymer Photocatalysts
Sprick, R. S., Chen, Z., Cowan, A. J., Bai, Y., Aitchison, C. M., Fang, Y., . . . Wang, X. (2020). Water Oxidation with Cobalt‐Loaded Linear Conjugated Polymer Photocatalysts. Angewandte Chemie. doi:10.1002/ange.202008000
Inverse Vulcanized Polymers with Shape Memory, Enhanced Mechanical Properties, and Vitrimer Behavior
Yan, P., Zhao, W., Zhang, B., Jiang, L., Petcher, S., Smith, J. A., . . . Hasell, T. (2020). Inverse Vulcanized Polymers with Shape Memory, Enhanced Mechanical Properties, and Vitrimer Behavior. Angewandte Chemie, 132(32), 13473-13480. doi:10.1002/ange.202004311
Inverse Vulcanized Polymers with Shape Memory, Enhanced Mechanical Properties, and Vitrimer Behavior
Yan, P., Zhao, W., Zhang, B., Jiang, L., Petcher, S., Smith, J. A., . . . Hasell, T. (2020). Inverse Vulcanized Polymers with Shape Memory, Enhanced Mechanical Properties, and Vitrimer Behavior. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 59(32), 13371-13378. doi:10.1002/anie.202004311
Current understanding and challenges of solar-driven hydrogen generation using polymeric photocatalysts (vol 4, pg 746, 2019)
Wang, Y., Vogel, A., Sachs, M., Sprick, R. S., Wilbraham, L., Moniz, S. J. A., . . . Tang, J. (2020). Current understanding and challenges of solar-driven hydrogen generation using polymeric photocatalysts (vol 4, pg 746, 2019). NATURE ENERGY, 5(8), 633. doi:10.1038/s41560-020-0651-4
Structure–activity relationships in well-defined conjugated oligomer photocatalysts for hydrogen production from water
Aitchison, C. M., Sachs, M., Little, M. A., Wilbraham, L., Brownbill, N. J., Kane, C. M., . . . Cooper, A. I. (2020). Structure–activity relationships in well-defined conjugated oligomer photocatalysts for hydrogen production from water. Chemical Science. doi:10.1039/d0sc02675a
An Expandable Hydrogen-Bonded Organic Framework Characterized by Three-Dimensional Electron Diffraction.
Cui, P., Svensson Grape, E., Spackman, P. R., Wu, Y., Clowes, R., Day, G. M., . . . Cooper, A. I. (2020). An Expandable Hydrogen-Bonded Organic Framework Characterized by Three-Dimensional Electron Diffraction.. Journal of the American Chemical Society, 142(29), 12743-12750. doi:10.1021/jacs.0c04885
Inducing Social Self‐Sorting in Organic Cages To Tune The Shape of The Internal Cavity
Abet, V., Szczypinski, F. T., Little, M. A., Santolini, V., Jones, C. D., Evans, R., . . . Slater, A. G. (2020). Inducing Social Self‐Sorting in Organic Cages To Tune The Shape of The Internal Cavity. Angewandte Chemie International Edition. doi:10.1002/anie.202007571
Inducing social self-sorting in organic cages to tune the shape of the internal cavity
Slater, A., Abet, V., Szczypinski, F., Little, M., Santolini, V., Jones, C. D., . . . Jelfs, K. (2020). Inducing social self-sorting in organic cages to tune the shape of the internal cavity. Angewandte Chemie. doi:10.1002/ange.202007571
A mobile robotic chemist
Burger, B., Maffettone, P. M., Gusev, V. V., Aitchison, C. M., Bai, Y., Wang, X., . . . Cooper, A. I. (2020). A mobile robotic chemist. Nature, 583(7815), 237-241. doi:10.1038/s41586-020-2442-2
Continuous and scalable synthesis of a porous organic cage by twin screw extrusion (TSE)
Egleston, B. D., Brand, M. C., Greenwell, F., Briggs, M. E., James, S. L., Cooper, A. I., . . . Greenaway, R. L. (2020). Continuous and scalable synthesis of a porous organic cage by twin screw extrusion (TSE). CHEMICAL SCIENCE, 11(25), 6582-6589. doi:10.1039/d0sc01858a
Synthesis of Stable Thiazole-Linked Covalent Organic Frameworks via a Multicomponent Reaction.
Wang, K., Jia, Z., Bai, Y., Wang, X., Hodgkiss, S. E., Chen, L., . . . Cooper, A. I. (2020). Synthesis of Stable Thiazole-Linked Covalent Organic Frameworks via a Multicomponent Reaction.. Journal of the American Chemical Society, 142(25), 11131-11138. doi:10.1021/jacs.0c03418
Geometric landscapes for material discovery within energy-structure-function maps
Moosavi, S. M., Xu, H., Chen, L., Cooper, A. I., & Smit, B. (2020). Geometric landscapes for material discovery within energy-structure-function maps. Chemical Science, 11(21), 5423-5433. doi:10.1039/d0sc00049c
Side-chain tuning in conjugated polymer photocatalysts for improved hydrogen production from water
Woods, D. J., Hillman, S. A. J., Pearce, D., Wilbraham, L., Flagg, L. Q., Duffy, W., . . . Cooper, A. I. (2020). Side-chain tuning in conjugated polymer photocatalysts for improved hydrogen production from water. ENERGY & ENVIRONMENTAL SCIENCE, 13(6), 1843-1855. doi:10.1039/d0ee01213k
Conjugated polymer donor-molecular acceptor nanohybrids for photocatalytic hydrogen evolution.
Yang, H., Li, X., Sprick, R. S., & Cooper, A. I. (2020). Conjugated polymer donor-molecular acceptor nanohybrids for photocatalytic hydrogen evolution.. Chemical communications (Cambridge, England). doi:10.1039/d0cc00740d
Hydrogen evolution from water using heteroatom substituted fluorene conjugated co-polymers
Bai, Y., Woods, D. J., Wilbraham, L., Aitchison, C. M., Zwijnenburg, M., Sprick, R. S., & Cooper, A. (2020). Hydrogen evolution from water using heteroatom substituted fluorene conjugated co-polymers. Journal of Materials Chemistry A, 2020(17), 8700-8705. doi:10.1039/d0ta02599b
Controlling Gas Selectivity in Molecular Porous Liquids by Tuning the Cage Window Size
Egleston, B. D., Luzyanin, K. V., Brand, M. C., Clowes, R., Briggs, M. E., Greenaway, R. L., & Cooper, A. I. (2020). Controlling Gas Selectivity in Molecular Porous Liquids by Tuning the Cage Window Size. Angewandte Chemie, 132(19), 7432-7436. doi:10.1002/ange.201914037
Controlling gas selectivity in molecular porous liquids by tuning the cage window size
Egleston, B., Luzyanin, K., Brand, M., Clowes, R., Briggs, M., Greenaway, R. L., & Cooper, A. (2020). Controlling gas selectivity in molecular porous liquids by tuning the cage window size. Angewandte Chemie International Edition, 59(19), 7362-7366. doi:10.1002/anie.201914037
Photocatalytic Proton Reduction by a Computationally Identified, Molecular Hydrogen-Bonded Framework
Aitchison, C., Kane, C., McMahon, D. P., Spackman, P., Wang, X., Wilbraham, L., . . . Cooper, A. (2020). Photocatalytic Proton Reduction by a Computationally Identified, Molecular Hydrogen-Bonded Framework. Journal of Materials Chemistry A, 2020(15), 7158-7170. doi:10.1039/d0ta00219d
Polymer photocatalysts with plasma-enhanced activity
Sprick, R. S., Cheetham, K. J., Bai, Y., Alves Fernandes, J., Barnes, M., Bradley, J. W., & Cooper, A. I. (2020). Polymer photocatalysts with plasma-enhanced activity. Journal of Materials Chemistry A, 2020(15), 7125-7129. doi:10.1039/d0ta01200a
Organic heterojunctions for direct solar fuel generation
Sprick, R. S., Little, M. A., & Cooper, A. I. (2020). Organic heterojunctions for direct solar fuel generation. Communications Chemistry, 3(1). doi:10.1038/s42004-020-0288-z
Organic Cage Dumbbells
Greenaway, R. L., Santolini, V., Szczypinski, F. T., Bennison, M. J., Little, M. A., Marsh, A., . . . Cooper, A. I. (2020). Organic Cage Dumbbells. CHEMISTRY-A EUROPEAN JOURNAL, 26(17), 3718-3722. doi:10.1002/chem.201905623
Hydrophilic microporous membranes for selective ion separation and flow-battery energy storage
Tan, R., Wang, A., Malpass-Evans, R., Williams, R., Zhao, E. W., Liu, T., . . . Song, Q. (2020). Hydrophilic microporous membranes for selective ion separation and flow-battery energy storage. Nature Materials, 19(2), 195-202. doi:10.1038/s41563-019-0536-8
Advances in Conjugated Microporous Polymers.
Lee, J. -S. M., & Cooper, A. I. (2020). Advances in Conjugated Microporous Polymers.. Chemical reviews. doi:10.1021/acs.chemrev.9b00399
A stable covalent organic framework for photocatalytic carbon dioxide reduction
Fu, Z., Wang, X., Gardner, A., Wang, X., Chong, S. Y., Neri, G., . . . Cooper, A. I. (2020). A stable covalent organic framework for photocatalytic carbon dioxide reduction. CHEMICAL SCIENCE, 11(2), 543-550. doi:10.1039/c9sc03800k
Computational Screening for Nested Organic Cage Complexes
Berardo, E., Greenaway, R. L., Miklitz, M., Cooper, A. I., & Jelfs, K. E. (2020). Computational Screening for Nested Organic Cage Complexes. Molecular Systems Design and Engineering. doi:10.1039/C9ME00085B
2019
NMR relaxation and modelling study of the dynamics of SF<sub>6</sub> and Xe in porous organic cages
Hakansson, P., Javed, M. A., Komulainen, S., Chen, L., Holden, D., Hasell, T., . . . Telkki, V. -V. (2019). NMR relaxation and modelling study of the dynamics of SF<sub>6</sub> and Xe in porous organic cages. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 21(44), 24373-24382. doi:10.1039/c9cp04379a
Structurally Diverse Covalent Triazine-Based Framework Materials for Photocatalytic Hydrogen Evolution from Water
Meier, C. B., Clowes, R., Berardo, E., Jelfs, K. E., Zwijnenburg, M. A., Sprick, R. S., & Cooper, A. I. (2019). Structurally Diverse Covalent Triazine-Based Framework Materials for Photocatalytic Hydrogen Evolution from Water. CHEMISTRY OF MATERIALS, 31(21), 8830-8838. doi:10.1021/acs.chemmater.9b02825
Accelerated robotic discovery of type II porous liquids
Kearsey, R. J., Alston, B. M., Briggs, M. E., Greenaway, R. L., & Cooper, A. I. (2019). Accelerated robotic discovery of type II porous liquids. CHEMICAL SCIENCE, 10(41), 9454-9465. doi:10.1039/c9sc03316e
From Concept to Crystals via Prediction: Multi‐Component Organic Cage Pots by Social Self‐Sorting
Greenaway, R. L., Santolini, V., Pulido, A., Little, M. A., Alston, B., Briggs, M., . . . Jelfs, K. E. (2019). From Concept to Crystals via Prediction: Multi‐Component Organic Cage Pots by Social Self‐Sorting. Angewandte Chemie (German version), 131(45), 16421-16427. doi:10.1002/ange.201909237
Barely porous organic cages for hydrogen isotope separation
Liu, M., Zhang, L., Little, M. A., Kapil, V., Ceriotti, M., Yang, S., . . . Cooper, A. (2019). Barely porous organic cages for hydrogen isotope separation. Science, 366(6465), 613-620. doi:10.1126/science.aax7427
Aromatic polymers made by reductive polydehalogenation of oligocyclic monomers as conjugated polymers of intrinsic microporosity (C-PIMs)
Klein, P., Joetten, H. J., Aitchison, C. M., Clowes, R., Preis, E., Cooper, A. I., . . . Scherf, U. (2019). Aromatic polymers made by reductive polydehalogenation of oligocyclic monomers as conjugated polymers of intrinsic microporosity (C-PIMs). POLYMER CHEMISTRY, 10(38), 5200-5205. doi:10.1039/c9py00869a
From Concept to Crystals via Prediction: Multi-Component Organic Cage Pots by Social Self-Sorting
Greenaway, R. L., Santolini, V., Pulido, A., Little, M. A., Alston, B. M., Briggs, M. E., . . . Jelfs, K. E. (2019). From Concept to Crystals via Prediction: Multi-Component Organic Cage Pots by Social Self-Sorting. Angewandte Chemie International Edition, 58(45), 16275-16281. doi:10.1002/anie.201909237
Mining predicted crystal structure landscapes with high throughput crystallisation: old molecules, new insights
Cui, P., McMahon, D. P., Spackman, P. R., Alston, B. M., Little, M. A., Day, G. M., & Cooper, A. I. (2019). Mining predicted crystal structure landscapes with high throughput crystallisation: old molecules, new insights. CHEMICAL SCIENCE, 10(43), 9988-9997. doi:10.1039/c9sc02832c
Current understanding and challenges of solar-driven hydrogen generation using polymeric photocatalysts
Wang, Y., Vogel, A., Sachs, M., Sprick, R. S., Wilbraham, L., Moniz, S. J. A., . . . Tang, J. (2019). Current understanding and challenges of solar-driven hydrogen generation using polymeric photocatalysts. NATURE ENERGY, 4(9), 746-760. doi:10.1038/s41560-019-0456-5
Metal-Organic Conjugated Microporous Polymer Containing a Carbon Dioxide Reduction Electrocatalyst
Smith, C., Clowes, R., Sprick, R. S., Cooper, A., & Cowan, A. J. (2019). Metal-Organic Conjugated Microporous Polymer Containing a Carbon Dioxide Reduction Electrocatalyst. Sustainable Energy and Fuels. doi:10.1039/C9SE00450E
Understanding the effect of host flexibility on the adsorption of CH<sub>4</sub>, CO<sub>2</sub> and SF<sub>6</sub> in porous organic cages
Yang, S., Chen, L., Holden, D., Wang, R., Cheng, Y., Wells, M., . . . Ding, L. (2019). Understanding the effect of host flexibility on the adsorption of CH<sub>4</sub>, CO<sub>2</sub> and SF<sub>6</sub> in porous organic cages. ZEITSCHRIFT FUR KRISTALLOGRAPHIE-CRYSTALLINE MATERIALS, 234(7-8), 547-555. doi:10.1515/zkri-2018-2150
Synthetic approaches to artificial photosynthesis: general discussion
Aitchison, C. M., Andrei, V., Anton-Garcia, D., Apfel, U. -P., Badiani, V., Beller, M., . . . Zwijnenburg, M. A. (2019). Synthetic approaches to artificial photosynthesis: general discussion. FARADAY DISCUSSIONS, 215, 242-281. doi:10.1039/C9FD90024A
Synthesis of a Large, Shape-Flexible, Solvatomorphic Porous Organic Cage
Teng, B., Little, M. A., Hasell, T., Chong, S. Y., Jelfs, K. E., Clowes, R., . . . Cooper, A. I. (2019). Synthesis of a Large, Shape-Flexible, Solvatomorphic Porous Organic Cage. CRYSTAL GROWTH & DESIGN, 19(7), 3647-3651. doi:10.1021/acs.cgd.8b01761
Accelerated discovery of organic polymer photocatalysts for hydrogen evolution from water through the integration of experiment and theory.
Bai, Y., Wilbraham, L., Slater, B. J., Zwijnenburg, M. A., Sprick, R. S., & Cooper, A. I. (2019). Accelerated Discovery of Organic Polymer Photocatalysts for Hydrogen Evolution from Water through the Integration of Experiment and Theory. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 141(22), 9063-9071. doi:10.1021/jacs.9b03591
Photocatalytically active ladder polymers.
Vogel, A., Forster, M., Wilbraham, L., Smith, C. L., Cowan, A. J., Zwijnenburg, M. A., . . . Cooper, A. I. (2019). Photocatalytically active ladder polymers.. Faraday discussions. doi:10.1039/c8fd00197a
Complex Phase Behaviour and Structural Transformations of Metal-Organic Frameworks with Mixed Rigid and Flexible Bridging Ligands
Arkawazi, H. D. J., Clowes, R., Cooper, A. I., Konno, T., Kuwamura, N., Pask, C. M., & Hardie, M. J. (2019). Complex Phase Behaviour and Structural Transformations of Metal-Organic Frameworks with Mixed Rigid and Flexible Bridging Ligands. CHEMISTRY-A EUROPEAN JOURNAL, 25(5), 1353-1362. doi:10.1002/chem.201805028
Photocatalytic Hydrogen Evolution from Water Using Fluorene and Dibenzothiophene Sulfone-Conjugated Microporous and Linear Polymers
Sprick, R. S., Bai, Y., Guilbert, A. A. Y., Zbiri, M., Aitchison, C. M., Wilbraham, L., . . . Cooper, A. I. (2019). Photocatalytic Hydrogen Evolution from Water Using Fluorene and Dibenzothiophene Sulfone-Conjugated Microporous and Linear Polymers. CHEMISTRY OF MATERIALS, 31(2), 305-313. doi:10.1021/acs.chemmater.8b02833
Efficient separation of propane and propene by a hypercrosslinked polymer doped with Ag(i)
Stephenson, A., Li, B., Chen, L., Clowes, R., Briggs, M. E., & Cooper, A. I. (2019). Efficient separation of propane and propene by a hypercrosslinked polymer doped with Ag(i). JOURNAL OF MATERIALS CHEMISTRY A, 7(44), 25521-25525. doi:10.1039/c9ta07510k
Emulsion polymerization derived organic photocatalysts for improved light-driven hydrogen evolution
Aitchison, C. M., Sprick, R. S., & Cooper, A. I. (2019). Emulsion polymerization derived organic photocatalysts for improved light-driven hydrogen evolution. JOURNAL OF MATERIALS CHEMISTRY A, 7(6), 2490-2496. doi:10.1039/c8ta11383a
Post- synthetic fluorination of Scholl- coupled microporous polymers for increased CO2 uptake and selectivity
Alahmed, A. H., Briggs, M. E., Cooper, A. I., & Adams, D. J. (2019). Post- synthetic fluorination of Scholl- coupled microporous polymers for increased CO2 uptake and selectivity. JOURNAL OF MATERIALS CHEMISTRY A, 7(2), 549-557. doi:10.1039/c8ta09359h
2018
Computationally-inspired discovery of an unsymmetrical porous organic cage
Berardo, E., Greenaway, R. L., Turcani, L., Alston, B. M., Bennison, M. J., Miklitz, M., . . . Jelfs, K. E. (2018). Computationally-inspired discovery of an unsymmetrical porous organic cage. NANOSCALE, 10(47), 22381-22388. doi:10.1039/c8nr06868b
Investigating the breakdown of the nerve agent simulant methyl paraoxon and chemical warfare agents GB and VX using nitrogen containing bases
Wilson, C., Cooper, N. J., Briggs, M. E., Cooper, A. I., & Adams, D. J. (2018). Investigating the breakdown of the nerve agent simulant methyl paraoxon and chemical warfare agents GB and VX using nitrogen containing bases. ORGANIC & BIOMOLECULAR CHEMISTRY, 16(47), 9285-9291. doi:10.1039/c8ob02475h
Sulfone-containing covalent organic frameworks for photocatalytic hydrogen evolution from water
Wang, X., Chen, L., Chong, S. Y., Little, M. A., Wu, Y., Zhu, W. -H., . . . Cooper, A. I. (2018). Sulfone-containing covalent organic frameworks for photocatalytic hydrogen evolution from water. Nature Chemistry, 10(12), 1180-1189. doi:10.1038/s41557-018-0141-5
Understanding structure-activity relationships in linear polymer photocatalysts for hydrogen evolution
Sachs, M., Sprick, R. S., Pearce, D., Hillman, S. A. J., Monti, A., Guilbert, A. A. Y., . . . Cooper, A. I. (2018). Understanding structure-activity relationships in linear polymer photocatalysts for hydrogen evolution. Nature Communications, 9. doi:10.1038/s41467-018-07420-6
Covalent and electrostatic incorporation of amines into hypercrosslinked polymers for increased CO<sub>2</sub> selectivity
Alahmed, A. H., Briggs, M. E., Cooper, A. I., & Adams, D. J. (2018). Covalent and electrostatic incorporation of amines into hypercrosslinked polymers for increased CO<sub>2</sub> selectivity. JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY, 56(22), 2513-2521. doi:10.1002/pola.29228
Applications of crystal structure prediction - organic molecular structures: general discussion
Adjiman, C. S., Brandenburg, J. G., Braun, D. E., Cole, J., Collins, C., Cooper, A. I., . . . Zhu, Q. (2018). Applications of crystal structure prediction - organic molecular structures: general discussion. FARADAY DISCUSSIONS, 211, 493-539. doi:10.1039/c8fd90032a
Ultrahigh-permeance PIM-1 based thin film nanocomposite membranes on PAN supports for CO<sub>2</sub> separation
Bhavsar, R. S., Mitra, T., Adams, D. J., Cooper, A. I., & Budd, P. M. (2018). Ultrahigh-permeance PIM-1 based thin film nanocomposite membranes on PAN supports for CO<sub>2</sub> separation. JOURNAL OF MEMBRANE SCIENCE, 564, 878-886. doi:10.1016/j.memsci.2018.07.089
Computational modelling of solvent effects in a prolific solvatomorphic porous organic cage
McMahon, D. P., Stephenson, A., Chong, S. Y., Little, M. A., Jones, J. T. A., Cooper, A. I., & Day, G. M. (2018). Computational modelling of solvent effects in a prolific solvatomorphic porous organic cage. FARADAY DISCUSSIONS, 211, 383-399. doi:10.1039/c8fd00031j
Energy-Structure-Function Maps: Cartography for Materials Discovery
Day, G. M., & Cooper, A. I. (2018). Energy-Structure-Function Maps: Cartography for Materials Discovery. ADVANCED MATERIALS, 30(37). doi:10.1002/adma.201704944
Nitrogen Containing Linear Poly(phenylene) Derivatives for Photo-catalytic Hydrogen Evolution from Water
Sprick, R. S., Wilbraham, L., Bai, Y., Guiglion, P., Monti, A., Clowes, R., . . . Zwijnenburg, M. A. (2018). Nitrogen Containing Linear Poly(phenylene) Derivatives for Photo-catalytic Hydrogen Evolution from Water. CHEMISTRY OF MATERIALS, 30(16), 5733-5742. doi:10.1021/acs.chemmater.8b02501
Core–Shell Crystals of Porous Organic Cages
Jiang, S., Du, Y., Marcello, M., Corcoran, E. W., Calabro, D. C., Chong, S. Y., . . . Cooper, A. I. (2018). Core–Shell Crystals of Porous Organic Cages. Angewandte Chemie, 130(35), 11398-11402. doi:10.1002/ange.201803244
Innentitelbild: Core–Shell Crystals of Porous Organic Cages (Angew. Chem. 35/2018)
Jiang, S., Du, Y., Marcello, M., Corcoran, E. W., Calabro, D. C., Chong, S. Y., . . . Cooper, A. I. (2018). Innentitelbild: Core–Shell Crystals of Porous Organic Cages (Angew. Chem. 35/2018). Angewandte Chemie, 130(35), 11250. doi:10.1002/ange.201806818
Inside Cover: Core–Shell Crystals of Porous Organic Cages (Angew. Chem. Int. Ed. 35/2018)
Jiang, S., Du, Y., Marcello, M., Corcoran, E. W., Calabro, D. C., Chong, S. Y., . . . Cooper, A. I. (2018). Inside Cover: Core–Shell Crystals of Porous Organic Cages (Angew. Chem. Int. Ed. 35/2018). Angewandte Chemie International Edition, 57(35), 11082. doi:10.1002/anie.201806818
Core-Shell Crystals of Porous Organic Cages
Jiang, S., Du, Y., Marcello, M., Corcoran Jr, E. W., Calabro, D. C., Chong, S. Y., . . . Cooper, A. I. (2018). Core-Shell Crystals of Porous Organic Cages. Angewandte Chemie International Edition, 57(35), 11228-11232. doi:10.1002/anie.201803244
High-throughput discovery of organic cages and catenanes using computational screening fused with robotic synthesis
Greenaway, R. L., Santolini, V., Bennison, M. J., Alston, B. A., Pugh, C. J., Little, M. A., . . . Cooper, A. I. (2018). High-throughput discovery of organic cages and catenanes using computational screening fused with robotic synthesis. Nature Communications, 9. doi:10.1038/s41467-018-05271-9
pH effects on molecular hydrogen storage in porous organic cages deposited onto platinum electrodes
Hernandez-Ibanez, N., Lee, J. -S. M., Iniesta, J., Montiel Leguey, V., Briggs, M. E., Cooper, A. I., . . . Marken, F. (2018). pH effects on molecular hydrogen storage in porous organic cages deposited onto platinum electrodes. JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 819, 46-50. doi:10.1016/j.jelechem.2017.07.009
Near-Ideal Xylene Selectivity in Adaptive Molecular Pillar[n]arene Crystals
Jie, K., Liu, M., Zhou, Y., Little, M., Pulido, A., Chong, S., . . . Cooper, A. (2018). Near-Ideal Xylene Selectivity in Adaptive Molecular Pillar[n]arene Crystals. Journal of the American Chemical Society, 140(22), 6921-6930. doi:10.1021/jacs.8b02621
Cage Doubling: Solvent-Mediated Re-equilibration of a [3+6] Prismatic Organic Cage to a Large [6+12] Truncated Tetrahedron
Pugh, C. J., Santolini, V., Greenaway, R. L., Little, M. A., Briggs, M. E., Jelfs, K. E., & Cooper, A. I. (2018). Cage Doubling: Solvent-Mediated Re-equilibration of a [3+6] Prismatic Organic Cage to a Large [6+12] Truncated Tetrahedron. CRYSTAL GROWTH & DESIGN, 18(5), 2759-2764. doi:10.1021/acs.cgd.7b01422
Structural Elucidation of Amorphous Photocatalytic Polymers from Dynamic Nuclear Polarization Enhanced Solid State NMR
Brownbill, N. J., Sprick, R. S., Bonillo, B., Pawsey, S., Aussenac, F., Fielding, A. J., . . . Blanc, F. (2018). Structural Elucidation of Amorphous Photocatalytic Polymers from Dynamic Nuclear Polarization Enhanced Solid State NMR. MACROMOLECULES, 51(8), 3088-3096. doi:10.1021/acs.macromol.7b02544
Controlling electric double-layer capacitance and pseudocapacitance in heteroatom-doped carbons derived from hypercrosslinked microporous polymers
Lee, J. S. M., Briggs, M. E., Hu, C. C., & Cooper, A. I. (2018). Controlling electric double-layer capacitance and pseudocapacitance in heteroatom-doped carbons derived from hypercrosslinked microporous polymers. Nano Energy, 46, 277-289. doi:10.1016/j.nanoen.2018.01.042
Visible-Light-Driven Hydrogen Evolution Using Planarized Conjugated Polymer Photocatalysts (vol 55, pg 1792, 2016)
Sprick, R. S., Bonillo, B., Clowes, R., Guiglion, P., Brownbill, N. J., Slater, B. J., . . . Cooper, A. I. (2018). Visible-Light-Driven Hydrogen Evolution Using Planarized Conjugated Polymer Photocatalysts (vol 55, pg 1792, 2016). ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 57(10), 2520. doi:10.1002/anie.201800571
A solution-processable dissymmetric porous organic cage
Slater, A. G., Little, M. A., Briggs, M. E., Jelfs, K. E., & Cooper, A. I. (2018). A solution-processable dissymmetric porous organic cage. MOLECULAR SYSTEMS DESIGN & ENGINEERING, 3(1), 223-227. doi:10.1039/c7me00090a
Maximising the hydrogen evolution activity in organic photocatalysts by co-polymerisation
Sprick, R. S., Aitchison, C. M., Berardo, E., Turcani, L., Wilbraham, L., Alston, B. M., . . . Cooper, A. I. (2018). Maximising the hydrogen evolution activity in organic photocatalysts by co-polymerisation. JOURNAL OF MATERIALS CHEMISTRY A, 6(25), 11994-12003. doi:10.1039/c8ta04186e
2017
Ultra-Fast Molecular Rotors within Porous Organic Cages
Hughes, A. R., Brownbill, N. J., Lalek, R. C., Briggs, M. E., Slater, A. G., Cooper, A. I., & Blanc, F. (2017). Ultra-Fast Molecular Rotors within Porous Organic Cages. CHEMISTRY-A EUROPEAN JOURNAL, 23(68), 17217-17221. doi:10.1002/chem.201704964
A Solution-Processable Polymer Photocatalyst for Hydrogen Evolution from Water
Woods, D. J., Sprick, R. S., Smith, C., Cowan, A. J., & Cooper, A. I. (2017). A Solution-Processable Polymer Photocatalyst for Hydrogen Evolution from Water. Advanced Energy Materials, 7(22). doi:10.1002/aenm.201700479
Microparticles and composition
Bennison, M. J., Chapell, D., Cooper, A., Frampton, H., Satherley, J., & Vijayaraghavan, M. (2016, May 6). WO2017190920-A1, Microparticles and composition. World wide.
Covalent Triazine Frameworks via a Low-Temperature Polycondensation Approach
Wang, K., Yang, L. -M., Wang, X., Guo, L., Cheng, G., Zhang, C., . . . Cooper, A. (2017). Covalent Triazine Frameworks via a Low-Temperature Polycondensation Approach. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 56(45), 14149-14153. doi:10.1002/anie.201708548
Structure-property relationships for covalent triazine-based frameworks: The effect of spacer length on photocatalytic hydrogen evolution from water
Meier, C. B., Sprick, R. S., Monti, A., Guiglion, P., Lee, J. -S. M., Zwijnenburg, M. A., & Cooper, A. I. (2017). Structure-property relationships for covalent triazine-based frameworks: The effect of spacer length on photocatalytic hydrogen evolution from water. POLYMER, 126, 283-290. doi:10.1016/j.polymer.2017.04.017
Oriented Two-Dimensional Porous Organic Cage Crystals
Jiang, S., Song, Q., Massey, A., Chong, S. Y., Chen, L., Sun, S., . . . Cooper, A. I. (2017). Oriented Two-Dimensional Porous Organic Cage Crystals. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 56(32), 9391-9395. doi:10.1002/anie.201704579
Computationally-Guided Synthetic Control over Pore Size in Isostructural Porous Organic Cages
Slater, A. G., Reiss, P. S., Pulido, A., Little, M. A., Holden, D. L., Chen, L., . . . Cooper, A. I. (2017). Computationally-Guided Synthetic Control over Pore Size in Isostructural Porous Organic Cages. ACS CENTRAL SCIENCE, 3(7), 734-742. doi:10.1021/acscentsci.7b00145
Computational Screening of Porous Organic Molecules for Xenon/Krypton Separation
Miklitz, M., Jiang, S., Clowes, R., Briggs, M. E., Cooper, A. I., & Jelfs, K. E. (2017). Computational Screening of Porous Organic Molecules for Xenon/Krypton Separation. JOURNAL OF PHYSICAL CHEMISTRY C, 121(28), 15211-15222. doi:10.1021/acs.jpcc.7b03848
Porous Molecular Solids and Liquids
Cooper, A. I. (2017). Porous Molecular Solids and Liquids. ACS CENTRAL SCIENCE, 3(6), 544-553. doi:10.1021/acscentsci.7b00146
Porous Organic Cages
Chong, S. Y., & Cooper, A. I. (2017). Porous Organic Cages. In Comprehensive Supramolecular Chemistry II (pp. 139-197). Elsevier. doi:10.1016/b978-0-12-409547-2.12586-7
Chirality as a tool for function in porous organic cages
Hasell, T., Little, M. A., Chong, S. Y., Schmidtmann, M., Briggs, M. E., Santolini, V., . . . Cooper, A. I. (2017). Chirality as a tool for function in porous organic cages. NANOSCALE, 9(20), 6783-6790. doi:10.1039/c7nr01301a
Polymer photocatalysts for water splitting; lessons from experiment and theory
Zwijnenburg, M., Sprick, R. S., Adams, D., & Cooper, A. (2017). Polymer photocatalysts for water splitting; lessons from experiment and theory. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Vol. 253. Retrieved from https://www.webofscience.com/
Understanding gas capacity, guest selectivity and diffusion in porous liquids
greenaway., holden., eden., stephenson., Yong, Y. W., bennison., . . . cooper. (2017). Understanding gas capacity, guest selectivity and diffusion in porous liquids. Chemical Science, 2017(4), 2640-2651. doi:10.1039/c6sc05196k
Functional materials discovery using energy–structure–function maps
Pulido, A., Chen, L., Kaczorowski, T., Holden, D., Little, M. A., Chong, S. Y., . . . Day, G. M. (2017). Functional materials discovery using energy–structure–function maps. Nature, 543(7647), 657-664. doi:10.1038/nature21419
Swellable functional hypercrosslinked polymer networks for the uptake of chemical warfare agents
Wilson, C., Main, M. J., Cooper, N. J., Briggs, M. E., Cooper, A. I., & Adams, D. J. (2017). Swellable functional hypercrosslinked polymer networks for the uptake of chemical warfare agents. POLYMER CHEMISTRY, 8(12), 1914-1922. doi:10.1039/c7py00040e
Layered microporous polymers by solvent knitting method
Wang, S., Zhang, C., Shu, Y., Jiang, S., Xia, Q., Chen, L., . . . Tan, B. (2017). Layered microporous polymers by solvent knitting method. SCIENCE ADVANCES, 3(3). doi:10.1126/sciadv.1602610
Styrene Purification by Guest-Induced Restructuring of Pillar[6]arene
Jie, K., Liu, M., Zhou, Y., Llittle, M. A., Bonakala, S., Chong, S. Y., . . . Cooper, A. I. (2017). Styrene Purification by Guest-Induced Restructuring of Pillar[6]arene. Journal of the American Chemical Society, 139(8), 2908-2911. doi:10.1021/jacs.6b13300
A Perspective on the Synthesis, Purification, and Characterization of Porous Organic Cages
Briggs, M. E., & Cooper, A. I. (2017). A Perspective on the Synthesis, Purification, and Characterization of Porous Organic Cages. CHEMISTRY OF MATERIALS, 29(1), 149-157. doi:10.1021/acs.chemmater.6b02903
High surface area sulfur-doped microporous carbons from inverse vulcanised polymers
Lee, J. -S. M., Parker, D. J., Cooper, A. I., & Hasell, T. (2017). High surface area sulfur-doped microporous carbons from inverse vulcanised polymers. JOURNAL OF MATERIALS CHEMISTRY A, 5(35), 18603-18609. doi:10.1039/c7ta07130b
Modular assembly of porous organic cage crystals: isoreticular quasiracemates and ternary co-crystal
Tothadi, S., Little, M. A., Hasell, T., Briggs, M. E., Chong, S. Y., Liu, M., & Cooper, A. I. (2017). Modular assembly of porous organic cage crystals: isoreticular quasiracemates and ternary co-crystal. CRYSTENGCOMM, 19(33), 4933-4941. doi:10.1039/c7ce00783c
Reticular synthesis of porous molecular 1D nanotubes and 3D networks
Slater, A. G., Little, M. A., Pulido, A., Chong, S. Y., Holden, D., Chen, L., . . . Cooper, A. I. (2017). Reticular synthesis of porous molecular 1D nanotubes and 3D networks. Nature Chemistry, 9, 17-25. doi:10.1038/nchem.2663
2016
Hyperporous Carbons from Hypercrosslinked Polymers.
Lee, J. -S. M., Briggs, M. E., Hasell, T., & Cooper, A. I. (2016). Hyperporous Carbons from Hypercrosslinked Polymers.. Advanced Materials, 28(44), 9804-9810. doi:10.1002/adma.201603051
Periphery-Functionalized Porous Organic Cages
Reiss, P. S., Little, M. A., Santolini, V., Chong, S. Y., Hasell, T., Jelfs, K. E., . . . Cooper, A. I. (2016). Periphery-Functionalized Porous Organic Cages. CHEMISTRY-A EUROPEAN JOURNAL, 22(46), 16547-16553. doi:10.1002/chem.201603593
Three-dimensional Protonic Conductivity in Porous Organic Cage Solids
Liu, M., Chen, L., Lewis, S., Chong, S. Y., Little, M. A., Hasell, T., . . . Cooper, A. I. (2016). Three-dimensional Protonic Conductivity in Porous Organic Cage Solids. Nature Communications, 7. doi:10.1038/ncomms12750
Extended conjugated microporous polymers for photocatalytic hydrogen evolution from water
Sprick, R. S., Bonillo, B., Sachs, M., Clowes, R., Durrant, J. R., Adams, D. J., & Cooper, A. I. (2016). Extended conjugated microporous polymers for photocatalytic hydrogen evolution from water. CHEMICAL COMMUNICATIONS, 52(65), 10008-10011. doi:10.1039/c6cc03536a
Understanding Static, Dynamic and Cooperative Porosity in Molecular Materials
Holden, D., Chong, S. Y., Chen, L., Jelfs, K. E., Hasell, T., & Cooper, A. I. (2016). Understanding Static, Dynamic and Cooperative Porosity in Molecular Materials. Chemical Science, 7(08), 4875-4879. doi:10.1039/C6SC00713A
Porous organic cages: soluble, modular and molecular pores
Hasell, T., & Cooper, A. I. (2016). Porous organic cages: soluble, modular and molecular pores. NATURE REVIEWS MATERIALS, 1(9). doi:10.1038/natrevmats.2016.53
Separations with organic molecular solids
cooper., hasell., holden., Briggs, M. E., & chen. (2016, June 26). GB2015/051874, Separations with organic molecular solids.
Bis-Calix[4]arenes: From Ligand Design to the Directed Assembly of a Metal-Organic Trigonal Antiprism
Coletta, M., McLellan, R., Murphy, P., Leube, B. T., Sanz, S., Clowes, R., . . . Dalgarno, S. J. (2016). Bis-Calix[4]arenes: From Ligand Design to the Directed Assembly of a Metal-Organic Trigonal Antiprism. CHEMISTRY-A EUROPEAN JOURNAL, 22(26), 8791-8795. doi:10.1002/chem.201600762
Porosity-engineered carbons for supercapacitive energy storage using conjugated microporous polymer precursors
Lee, J. -S. M., Wu, T. -H., Alston, B. M., Briggs, M. E., Hasell, T., & Cooper, A. I. (2016). Porosity-engineered carbons for supercapacitive energy storage using conjugated microporous polymer precursors. Journal of Materials Chemistry A, 4(20), 7665-7673. doi:10.1039/c6ta02319c
Functional Porous Composites by Blending with Solution-Processable Molecular Pores
Briggs, M. E., Jiang., hasell., & cooper. (n.d.). Functional Porous Composites by Blending with Solution-Processable Molecular Pores. Chemical Communications. doi:10.1039/C6CC01034B
Tuning Photophysical Properties in Conjugated Microporous Polymers by Comonomer Doping Strategies
Bonillo, B., Sprick, R. S., & Cooper, A. I. (2016). Tuning Photophysical Properties in Conjugated Microporous Polymers by Comonomer Doping Strategies. CHEMISTRY OF MATERIALS, 28(10), 3469-3480. doi:10.1021/acs.chemmater.6b01195
PIM-1 mixed matrix membranes for gas separations using cost-effective hypercrosslinked nanoparticle fillers
Mitra, T., Bhavsar, R. S., Adams, D. J., Budd, P. M., & Cooper, A. I. (2016). PIM-1 mixed matrix membranes for gas separations using cost-effective hypercrosslinked nanoparticle fillers. CHEMICAL COMMUNICATIONS, 52(32), 5581-5584. doi:10.1039/c6cc00261g
Porous Organic Cage Thin Films and Molecular‐Sieving Membranes
Song, Q., Jiang, S., Hasell, T., Liu, M., Sun, S., Cheetham, A. K., . . . Cooper, A. I. (2016). Porous Organic Cage Thin Films and Molecular‐Sieving Membranes. Advanced Materials, 28(13), 2629-2637. doi:10.1002/adma.201505688
Porous Organic Cages for Sulfur Hexafluoride Separation
Hasell, T., Miklitz, M., Stephenson, A., Little, M. A., Chong, S. Y., Clowes, R., . . . Cooper, A. I. (2016). Porous Organic Cages for Sulfur Hexafluoride Separation. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 138(5), 1653-1659. doi:10.1021/jacs.5b11797
Visible-Light-Driven Hydrogen Evolution Using Planarized Conjugated Polymer Photocatalysts.
Sprick, R. S., Bonillo, B., Clowes, R., Guiglion, P., Brownbill, N. J., Slater, B. J., . . . Cooper, A. I. (2016). Visible-Light-Driven Hydrogen Evolution Using Planarized Conjugated Polymer Photocatalysts.. Angewandte Chemie (Weinheim an der Bergstrasse, Germany), 128(5), 1824-1828. doi:10.1002/ange.201510542
Visible‐Light‐Driven Hydrogen Evolution Using Planarized Conjugated Polymer Photocatalysts
Sprick, R. S., Bonillo, B., Clowes, R., Guiglion, P., Brownbill, N. J., Slater, B. J., . . . Cooper, A. I. (2016). Visible‐Light‐Driven Hydrogen Evolution Using Planarized Conjugated Polymer Photocatalysts. Angewandte Chemie International Edition, 55(5), 1792-1796. doi:10.1002/anie.201510542
2015
Dynamic flow synthesis of porous organic cages
Briggs, M. E., Slater, A. G., Lunt, N., Jiang, S., Little, M. A., Greenaway, R. L., . . . Cooper, A. I. (2015). Dynamic flow synthesis of porous organic cages. CHEMICAL COMMUNICATIONS, 51(98), 17390-17393. doi:10.1039/c5cc07447a
Liquids with permanent porosity
Giri, N., Del Popolo, M. G., Melaugh, G., Greenaway, R. L., Raetzke, K., Koschine, T., . . . James, S. L. (2015). Liquids with permanent porosity. Nature, 527(7577), 216-220. doi:10.1038/nature16072
The effect of molecular weight on the porosity of hypercrosslinked polystyrene
Ratvijitvech, T., Barrow, M., Cooper, A. I., & Adams, D. J. (2015). The effect of molecular weight on the porosity of hypercrosslinked polystyrene. POLYMER CHEMISTRY, 6(41), 7280-7285. doi:10.1039/c5py00668f
Tunable Porosity through Cooperative Diffusion in a Multicomponent Porous Molecular Crystal
Manurung, R., Holden, D., Miklitz, M., Chen, L., Hasell, T., Chong, S. Y., . . . Jelfs, K. E. (2015). Tunable Porosity through Cooperative Diffusion in a Multicomponent Porous Molecular Crystal. JOURNAL OF PHYSICAL CHEMISTRY C, 119(39), 22577-22586. doi:10.1021/acs.jpcc.5b07200
Function-led design of new porous materials
Slater, A. G., & Cooper, A. I. (2015). Function-led design of new porous materials. SCIENCE, 348(6238). doi:10.1126/science.aaa8075
Porous Organic Cages for Gas Chromatography Separations
Kewley, A., Stephenson, A., Chen, L., Briggs, M. E., Hasell, T., & Cooper, A. I. (2015). Porous Organic Cages for Gas Chromatography Separations. Chemistry of Materials, 27(9), 3207-3210. doi:10.1021/acs.chemmater.5b01112
MATERIALS CHEMISTRY Cooperative carbon capture
Cooper, A. I. (2015). MATERIALS CHEMISTRY Cooperative carbon capture. NATURE, 519(7543), 294-295. doi:10.1038/nature14212
Tunable Organic Photocatalysts for Visible-Light-Driven Hydrogen Evolution
Sprick, R. S., Jiang, J. -X., Bonillo, B., Ren, S., Ratvijitvech, T., Guiglion, P., . . . Cooper, A. I. (2015). Tunable Organic Photocatalysts for Visible-Light-Driven Hydrogen Evolution. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 137(9), 3265-3270. doi:10.1021/ja511552k
Using intermolecular interactions to crosslink PIM- 1 and modify its gas sorption properties
McDonald, T., Akhtar, R., Hon Lau, C., Ratvijitvech, T., Cheng, G., Clowes, R., . . . Cooper, A. (2015). Using intermolecular interactions to crosslink PIM-1 and modify its gas sorption properties. Journal of Materials Chemistry A, 3(9), 4855-4864. doi:10.1039/c4ta06070a
Aligned macroporous monoliths with intrinsic microporosity <i>via</i> a frozen-solvent-templating approachd
Ahmed, A., Hasell, T., Clowes, R., Myers, P., Cooper, A. I., & Zhang, H. (2015). Aligned macroporous monoliths with intrinsic microporosity <i>via</i> a frozen-solvent-templating approachd. CHEMICAL COMMUNICATIONS, 51(9), 1717-1720. doi:10.1039/c4cc08919g
Trapping virtual pores by crystal retro-engineering
Little, M., Briggs, M., Jones, J., Schmidtmann, M., Hasell, T., Chong, S., . . . Cooper, A. (2015). Trapping virtual pores by crystal retro-engineering. Nature Chemistry, 7(02), 153-159. doi:10.1038/nchem.2156
2014
Carbon nitride vs. graphene - now in 2D!
Cooper, A. I., & Bojdys, M. J. (2014). Carbon nitride vs. graphene - now in 2D!. MATERIALS TODAY, 17(10), 468-469. doi:10.1016/j.mattod.2014.10.001
Network formation mechanisms in conjugated microporous polymers
Laybourn, A., Dawson, R., Clowes, R., Hasell, T., Cooper, A. I., Khimyak, Y. Z., & Adams, D. J. (2014). Network formation mechanisms in conjugated microporous polymers. POLYMER CHEMISTRY, 5(21), 6325-6333. doi:10.1039/c4py00647j
Metallo-Cryptophanes Decorated with Bis-N-Heterocyclic Carbene Ligands: Self-Assembly and Guest Uptake into a Nonporous Crystalline Lattice
Henkelis, J. J., Carruthers, C. J., Chambers, S. E., Clowes, R., Cooper, A. I., Fisher, J., & Hardie, M. J. (2014). Metallo-Cryptophanes Decorated with Bis-N-Heterocyclic Carbene Ligands: Self-Assembly and Guest Uptake into a Nonporous Crystalline Lattice. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 136(41), 14393-14396. doi:10.1021/ja508502u
Separation of rare gases and chiral molecules by selective binding in porous organic cages
Chen, L., Reiss, P., Chong, S., Holden, D., Jelfs, K., Hasell, T., . . . Cooper, A. (2014). Separation of rare gases and chiral molecules by selective binding in porous organic cages. Nature Materials, 13(10), 954-960. doi:10.1038/nmat4035
Conjugated Polymers of Intrinsic Microporosity (C-PIMs)
Cheng, G., Bonillo, B., Sprick, R. S., Adams, D. J., Hasell, T., & Cooper, A. I. (2014). Conjugated Polymers of Intrinsic Microporosity (C-PIMs). Advanced Functional Materials, 24(33), 5219-5224. doi:10.1002/adfm.201401001
Guest control of structure in porous organic cages
Little, M. A., Chong, S. Y., Schmidtmann, M., Hasell, T., & Cooper, A. I. (2014). Guest control of structure in porous organic cages. CHEMICAL COMMUNICATIONS, 50(67), 9465-9468. doi:10.1039/c4cc04158e
Triazine-Based Graphitic Carbon Nitride: a Two-Dimensional Semiconductor
Algara-Siller, G., Severin, N., Chong, S. Y., Bjorkman, T., Palgrave, R. G., Laybourn, A., . . . Bojdys, M. J. (2014). Triazine-Based Graphitic Carbon Nitride: a Two-Dimensional Semiconductor. Angewandte Chemie International Edition, 53(29), 7450-7455. doi:10.1002/anie.201402191
Gas Diffusion in a Porous Organic Cage: Analysis of Dynamic Pore Connectivity Using Molecular Dynamics Simulations
Holden, D., Jelfs, K. E., Trewin, A., Willock, D. J., Haranczyk, M., & Cooper, A. I. (2014). Gas Diffusion in a Porous Organic Cage: Analysis of Dynamic Pore Connectivity Using Molecular Dynamics Simulations. JOURNAL OF PHYSICAL CHEMISTRY C, 118(24), 12734-12743. doi:10.1021/jp500293s
Porous Molecular Solids
Jiang, S., Trewin, A., & Cooper, A. I. (2014). Porous Molecular Solids. In Unknown Book (pp. 329-347). Wiley. doi:10.1002/9783527673223.ch13
Swellable, Water- and Acid-Tolerant Polymer Sponges for Chemoselective Carbon Dioxide Capture
Woodward, R. T., Stevens, L. A., Dawson, R., Vijayaraghavan, M., Hasell, T., Silverwood, I. P., . . . Cooper, A. I. (2014). Swellable, Water- and Acid-Tolerant Polymer Sponges for Chemoselective Carbon Dioxide Capture. Journal of the American Chemical Society, 136(25), 9028-9035. doi:10.1021/ja5031968
Acid- and Base-Stable Porous Organic Cages: Shape Persistence and pH Stability via Post-synthetic "Tying" of a Flexible Amine Cage
Liu, M., Little, M. A., Jelfs, K. E., Jones, J. T. A., Schmidtmann, M., Chong, S. Y., . . . Cooper, A. I. (2014). Acid- and Base-Stable Porous Organic Cages: Shape Persistence and pH Stability via Post-synthetic "Tying" of a Flexible Amine Cage. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 136(21), 7583-7586. doi:10.1021/ja503223j
Shining a Light on <i>s</i>-Triazine-Based Polymers
Butchosa, C., McDonald, T. O., Cooper, A. I., Adams, D. J., & Zwijnenburg, M. A. (2014). Shining a Light on <i>s</i>-Triazine-Based Polymers. JOURNAL OF PHYSICAL CHEMISTRY C, 118(8), 4314-4324. doi:10.1021/jp411854f
Controlling the Crystallization of Porous Organic Cages: Molecular Analogs of Isoreticular Frameworks Using Shape-Specific Directing Solvents
Hasell, T., Culshaw, J. L., Chong, S., Schmidtmann, M., Little, M., Jelfs, K. E., . . . Cooper, A. (2014). Controlling the Crystallization of Porous Organic Cages: Molecular Analogs of Isoreticular Frameworks Using Shape-Specific Directing Solvents. Journal of the American Chemical Society, 136(4), 1438-1448. doi:10.1021/ja409594s
Post-synthetic modification of conjugated microporous polymers
Ratvijitvech, T., Dawson, R., Laybourn, A., Khimyak, Y. Z., Adams, D. J., & Cooper, A. I. (2014). Post-synthetic modification of conjugated microporous polymers. POLYMER, 55(1), 321-325. doi:10.1016/j.polymer.2013.06.004
'Dry bases': carbon dioxide capture using alkaline dry water
Dawson, R., Stevens, L. A., Williams, O. S. A., Wang, W., Carter, B. O., Sutton, S., . . . Cooper, A. I. (2014). 'Dry bases': carbon dioxide capture using alkaline dry water. ENERGY & ENVIRONMENTAL SCIENCE, 7(5), 1786-1791. doi:10.1039/c3ee44124e
Porous organic cages-soluble molecular pores
Cooper, A. I., & Hasell, T. (2014). Porous organic cages-soluble molecular pores. Kobunshi, 63(4), 223-224.
Predicted crystal energy landscapes of porous organic cages
Pyzer-Knapp, E. O., Thompson, H. P. G., Schiffmann, F., Jelfs, K. E., Chong, S. Y., Little, M. A., . . . Day, G. M. (2014). Predicted crystal energy landscapes of porous organic cages. CHEMICAL SCIENCE, 5(6), 2235-2245. doi:10.1039/c4sc00095a
Swellable, water-tolerant polymer sponges for carbon dioxide capture
Cooper, A. I. (2014). Swellable, water-tolerant polymer sponges for carbon dioxide capture. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Vol. 248. Retrieved from https://www.webofscience.com/
2013
Molecular Dynamics Simulations of Gas Selectivity in Amorphous Porous Molecular Solids
Jiang, S., Jelfs, K. E., Holden, D., Hasell, T., Chong, S. Y., Haranczyk, M., . . . Cooper, A. I. (2013). Molecular Dynamics Simulations of Gas Selectivity in Amorphous Porous Molecular Solids. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 135(47), 17818-17830. doi:10.1021/ja407374k
Conjugated Microporous Polymers with Rose Bengal Dye for Highly Efficient Heterogeneous Organo-Photocatalysis
Jiang, J. -X., Li, Y., Wu, X., Xiao, J., Adams, D. J., & Cooper, A. I. (2013). Conjugated Microporous Polymers with Rose Bengal Dye for Highly Efficient Heterogeneous Organo-Photocatalysis. MACROMOLECULES, 46(22), 8779-8783. doi:10.1021/ma402104h
Shape Prediction for Supramolecular Organic Nanostructures: [4+4] Macrocyclic Tetrapods
Briggs, M. E., Jells, K. E., Chong, S. Y., Lester, C., Schmidtmann, M., Adams, D. J., & Cooper, A. I. (2013). Shape Prediction for Supramolecular Organic Nanostructures: [4+4] Macrocyclic Tetrapods. CRYSTAL GROWTH & DESIGN, 13(11), 4993-5000. doi:10.1021/cg401171v
Dynamic Nuclear Polarization NMR Spectroscopy Allows High-Throughput Characterization of Microporous Organic Polymers
Blanc, F., Chong, S. Y., McDonald, T. O., Adams, D. J., Pawsey, S., Caporini, M. A., & Cooper, A. I. (2013). Dynamic Nuclear Polarization NMR Spectroscopy Allows High-Throughput Characterization of Microporous Organic Polymers. Journal of the American Chemical Society, 135(41), 15290-15293. doi:10.1021/ja408074v
Dynamic Nuclear Polarization NMR Spectroscopy Allows High-Throughput Characterization of Microporous Organic Polymers
Blanc, F., Chong, S. Y., McDonald, T. O., Adams, D. J., Pawsey, S., Caporini, M. A., & Cooper, A. I. (2013). Dynamic Nuclear Polarization NMR Spectroscopy Allows High-Throughput Characterization of Microporous Organic Polymers. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 135(41), 15290-15293. doi:10.1021/ja408074v
Shedding Light on Structure-Property Relationships for Conjugated Microporous Polymers: The Importance of Rings and Strain
Zwijnenburg, M. A., Cheng, G., McDonald, T. O., Jelfs, K. E., Jiang, J. -X., Ren, S., . . . Adams, D. J. (2013). Shedding Light on Structure-Property Relationships for Conjugated Microporous Polymers: The Importance of Rings and Strain. MACROMOLECULES, 46(19), 7696-7704. doi:10.1021/ma401311s
Dodecaamide Cages: Organic 12-Arm Building Blocks for Supramolecular Chemistry
Culshaw, J. L., Cheng, G., Schmidtmann, M., Hasell, T., Liu, M., Adams, D. J., & Cooper, A. I. (2013). Dodecaamide Cages: Organic 12-Arm Building Blocks for Supramolecular Chemistry. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 135(27), 10007-10010. doi:10.1021/ja403987j
<i>In silico</i> Design of Supramolecules from Their Precursors: Odd-Even Effects in Cage-Forming Reactions
Jelfs, K. E., Eden, E. G. B., Culshaw, J. L., Shakespeare, S., Pyzer-Knapp, E. O., Thompson, H. P. G., . . . Cooper, A. I. (2013). <i>In silico</i> Design of Supramolecules from Their Precursors: Odd-Even Effects in Cage-Forming Reactions. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 135(25), 9307-9310. doi:10.1021/ja404253j
Molecular shape sorting using molecular organic cages
Mitra, T., Jelfs, K. E., Schmidtmann, M., Ahmed, A., Chong, S. Y., Adams, D. J., & Cooper, A. I. (2013). Molecular shape sorting using molecular organic cages. NATURE CHEMISTRY, 5(4), 276-281. doi:10.1038/NCHEM.1550
Chemical functionalization strategies for carbon dioxide capture in microporous organic polymers
Dawson, R., Cooper, A. I., & Adams, D. J. (2013). Chemical functionalization strategies for carbon dioxide capture in microporous organic polymers. POLYMER INTERNATIONAL, 62(3), 345-352. doi:10.1002/pi.4407
Tuning of gallery heights in a crystalline 2D carbon nitride network
Chong, S. Y., Jones, J. T. A., Khimyak, Y. Z., Cooper, A. I., Thomas, A., Antonietti, M., & Bojdys, M. J. (2013). Tuning of gallery heights in a crystalline 2D carbon nitride network. JOURNAL OF MATERIALS CHEMISTRY A, 1(4), 1102-1107. doi:10.1039/c2ta01068b
Nanoporous Organic Polymer/Cage Composite Membranes
Bushell, A. F., Budd, P. M., Attfield, M. P., Jones, J. T. A., Hasell, T., Cooper, A. I., . . . Jansen, J. C. (2013). Nanoporous Organic Polymer/Cage Composite Membranes. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 52(4), 1253-1256. doi:10.1002/anie.201206339
Conjugated microporous polymers (CMPs) for photocatalytic water splitting
Adams, D. J., Ren, S., Bojdys, M., Jiang, J., & Cooper, A. I. (2013). Conjugated microporous polymers (CMPs) for photocatalytic water splitting. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Vol. 245. Retrieved from https://www.webofscience.com/
Dodecaamide Cages: Organic 12-Arm Building Blocks for Supramolecular Chemistry
Culshaw, J. L., Cheng, G., Schmidtmann, M., Hasell, T., Liu, M., Adams, D. J., & Cooper, A. I. (2013). Dodecaamide Cages: Organic 12-Arm Building Blocks for Supramolecular Chemistry. Journal of the American Chemical Society, 135, 10007-10010.
In silico design of supramolecules from their precursors: odd-even effects in cage-forming reactions
Jelfs, K. E., Eden, E. G. B., Culshaw, J. L., Shakespeare, S., PyzerKnapp, E. O., Thompson, H. P. G., . . . Cooper, A. I. (2013). In silico design of supramolecules from their precursors: odd-even effects in cage-forming reactions. Journal of the American Chemical Society, 135, 9307-9310.
Low band-gap benzothiadiazole conjugated microporous polymers
Ren, S., Dawson, R., Adams, D. J., & Cooper, A. (2013). Low band-gap benzothiadiazole conjugated microporous polymers. POLYMER CHEMISTRY, 4(22), 5585-5590. doi:10.1039/c3py00690e
Soluble Polymers
Adams, D., Cooper, A., Cheng, G., & Hasell, T. (2013). Soluble Polymers.
2012
Soluble conjugated microporous polymers
Cheng, G., Hasell, T., Adams, D. J., & Cooper, A. I. (2013). Soluble conjugated microporous polymers. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 245. Retrieved from https://www.webofscience.com/
Solution-Processable Molecular Cage Micropores for Hierarchically Porous Materials
Hasell, T., Zhang, H., & Cooper, A. I. (2012). Solution-Processable Molecular Cage Micropores for Hierarchically Porous Materials. ADVANCED MATERIALS, 24(42), 5732-5737. doi:10.1002/adma.201202000
Branching out with aminals: microporous organic polymers from difunctional monomers
Laybourn, A., Dawson, R., Clowes, R., Iggo, J. A., Cooper, A. I., Khimyak, Y. Z., & Adams, D. J. (2012). Branching out with aminals: microporous organic polymers from difunctional monomers. POLYMER CHEMISTRY, 3(2), 533-537. doi:10.1039/c2py00506a
A new viscometer for high pressure measurements in supercritical CO2
Hassan, F., Satherley, J., Lilly, J., Ali, I., & Cooper, A. I. (2012). A new viscometer for high pressure measurements in supercritical CO2. Anal. Chem..
Branching out with aminals: microporous organic polymers from difunctional monomers
Laybourn, A., Dawson, R., Clowes, R., Iggo, J. A., Cooper, A. I., Khimyak, Y. Z., & Adams, D. J. (n.d.). Branching out with aminals: microporous organic polymers from difunctional monomers. Polym. Chem., 3(2), 533-537. doi:10.1039/c2py00506a
Diamond Annual Review 2011/12
Bojdys, M. J., & Cooper, A. I. (2012). Diamond Annual Review 2011/12. Oxford: Diamond Light Source Ltd. Retrieved from http://www.diamond.ac.uk/Home/Publications.html
Soluble Polymers
Adams, D., Cooper, A., Cheng, G., & Hasell, T. (2012). Soluble Polymers.
2011
Methods of Preparing Polymer-Dendrimer Hybrids
Bonzi, G., Weaver, J., Cooper, A., & Rannard, S. (2011). Methods of Preparing Polymer-Dendrimer Hybrids.
Scalable Synthesis for Porous Organic Cages
Lydon, D. P., Campbell, N. L., Adams, D. J., & Cooper, A. I. (2011). Scalable Synthesis for Porous Organic Cages. SYNTHETIC COMMUNICATIONS, 41(14), 2146-2151. doi:10.1080/00397911.2010.499487
Scalable Synthesis for Porous Organic Cages
Lydon, D. P., Campbell, N. L., Adams, D. J., & Cooper, A. I. (2011). Scalable Synthesis for Porous Organic Cages. Synthetic Communications, 41(14), 2146-2151. doi:10.1080/00397911.2010.499487
Modular and predictable assembly of porous organic molecular crystals
Jones, J. T. A., Hasell, T., Wu, X., Bacsa, J., Jelfs, K. E., Schmidtmann, M., . . . Cooper, A. I. (2011). Modular and predictable assembly of porous organic molecular crystals. NATURE, 474(7351), 367-371. doi:10.1038/nature10125
Hypercrosslinked organic polymer networks as potential adsorbents for pre-combustion CO<sub>2</sub> capture
Martin, C. F., Stoeckel, E., Clowes, R., Adams, D. J., Cooper, A. I., Pis, J. J., . . . Pevida, C. (2011). Hypercrosslinked organic polymer networks as potential adsorbents for pre-combustion CO<sub>2</sub> capture. JOURNAL OF MATERIALS CHEMISTRY, 21(14), 5475-5483. doi:10.1039/c0jm03534c
Metal-Organic Conjugated Microporous Polymers
Jiang, J. -X., Wang, C., Laybourn, A., Hasell, T., Clowes, R., Khimyak, Y. Z., . . . Cooper, A. I. (2011). Metal-Organic Conjugated Microporous Polymers. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 50(5), 1072-1075. doi:10.1002/anie.201005864
'Chemical tuning of CO2 sorption in robust nanoporous organic polymers'
Dawson, R., Adams, D. J., & Cooper, A. I. (2011). 'Chemical tuning of CO2 sorption in robust nanoporous organic polymers'. Chemical Science.
'Selective gas sorption in a [2+3] 'propeller' cage crystal'
Jiang, S., Bacsa, J., Wu, X., Jones, J. T. A., Dawson, R., Trewin, A., . . . Cooper, A. I. (2011). 'Selective gas sorption in a [2+3] 'propeller' cage crystal'. Chemical Communications.
Microporous organic polymers for carbon dioxide capture
Dawson, R., Stoeckel, E., Holst, J. R., Adams, D. J., & Cooper, A. I. (2011). Microporous organic polymers for carbon dioxide capture. ENERGY & ENVIRONMENTAL SCIENCE, 4(10), 4239-4245. doi:10.1039/c1ee01971f
Nanoporous organic polymer networks
Dawson, R., Cooper, A. I., & Adams, D. J. (2011). Nanoporous organic polymer networks. Progress in Polymer Science.
Reversible On/Off Porosity Switching in a Molecular Organic Solid
Jones, J. T. A., Mitra, T., Hasell, T., Adams, D. J., Holden, D., Jelfs, K. E., . . . Cooper, A. I. (2011). Reversible On/Off Porosity Switching in a Molecular Organic Solid. Angewandte Chemie International Edition, 50, 749-753.
2010
Emulsions-directed assembly of gold nanoparticles to molecularly-linked and size-controlled spherical aggregates
Hussain, I., Zhang, H., Brust, M., Barauskas, J., & Cooper, A. I. (2010). Emulsions-directed assembly of gold nanoparticles to molecularly-linked and size-controlled spherical aggregates. JOURNAL OF COLLOID AND INTERFACE SCIENCE, 350(1), 368-372. doi:10.1016/j.jcis.2010.06.016
Triply interpenetrated covalent organic cages
Hasell, T., Wu, X., Jones, J. T. A., Bacsa, J., Steiner, A., Mitra, T., . . . Cooper, A. I. (2010). Triply interpenetrated covalent organic cages. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 240. Retrieved from https://www.webofscience.com/
Uploading and Temperature-Controlled Release of Polymeric Colloids via Hydrophilic Emulsion-Templated Porous Polymers
Grant, N. C., Cooper, A. I., & Zhang, H. (2010). Uploading and Temperature-Controlled Release of Polymeric Colloids via Hydrophilic Emulsion-Templated Porous Polymers. ACS APPLIED MATERIALS & INTERFACES, 2(5), 1400-1406. doi:10.1021/am100049r
Palladium Nanoparticle Incorporation in Conjugated Microporous Polymers by Supercritical Fluid Processing
Hasell, T., Wood, C. D., Clowes, R., Jones, J. T. A., Khimyak, Y. Z., Adams, D. J., & Cooper, A. I. (2010). Palladium Nanoparticle Incorporation in Conjugated Microporous Polymers by Supercritical Fluid Processing. CHEMISTRY OF MATERIALS, 22(2), 557-564. doi:10.1021/cm9030446
2009
Functionalized Conjugated Microporous Polymers
Dawson, R., Laybourn, A., Clowes, R., Khimyak, Y. Z., Adams, D. J., & Cooper, A. I. (2009). Functionalized Conjugated Microporous Polymers. MACROMOLECULES, 42(22), 8809-8816. doi:10.1021/ma901801s
Fractionation of Poly(vinyl acetate) and the Phase Behavior of End-Group Modified Oligo(vinyl acetate)s in CO<sub>2</sub>
Tan, B., Bray, C. L., & Cooper, A. I. (2009). Fractionation of Poly(vinyl acetate) and the Phase Behavior of End-Group Modified Oligo(vinyl acetate)s in CO<sub>2</sub>. Macromolecules, 42(20), 7945-7952. doi:10.1021/ma901458a
Polymer-Mediated Hierarchical and Reversible Emulsion Droplet Assembly
Weaver, J. V. M., Rannard, S. P., & Cooper, A. I. (2009). Polymer-Mediated Hierarchical and Reversible Emulsion Droplet Assembly. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 48(12), 2131-2134. doi:10.1002/anie.200805448
Controlled Step Growth of Molecularly Linked Gold Nanoparticles: From Metallic Monomers to Dimers to Polymeric Nanoparticle Chains
Hussain, I., Brust, M., Barauskas, J., & Cooper, A. I. (2009). Controlled Step Growth of Molecularly Linked Gold Nanoparticles: From Metallic Monomers to Dimers to Polymeric Nanoparticle Chains. LANGMUIR, 25(4), 1934-1939. doi:10.1021/la804207y
Polymer Nanoparticles: Shape-Directed Monomer-to-Particle Synthesis
He, T., Adams, D. J., Butler, M. F., Cooper, A. I., & Rannard, S. P. (2009). Polymer Nanoparticles: Shape-Directed Monomer-to-Particle Synthesis. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 131(4), 1495-1501. doi:10.1021/ja807462e
Emulsion-Templated Porous Materials Using Concentrated Carbon Dioxide-in-Water Emulsions and Inexpensive Hydrocarbon Surfactants
Wood, C. D., Tan, B., Lee, J. -Y., & Cooper, A. I. (2009). Emulsion-Templated Porous Materials Using Concentrated Carbon Dioxide-in-Water Emulsions and Inexpensive Hydrocarbon Surfactants. GAS-EXPANDED LIQUIDS AND NEAR-CRITICAL MEDIA: GREEN CHEMISTRY AND ENGINEERING, 1006, 243-258. Retrieved from http://pubs.acs.org/
Porous organic cages
Tozawa, T., Jones, J. T. A., Swamy, S. I., Jiang, S., Adams, D. J., Shakespeare, S., . . . Cooper, A. I. (2009). Porous organic cages. NATURE MATERIALS, 8(12), 973-978. doi:10.1038/NMAT2545
Porous organic cages
Tozawa, T., Swamy, S., Jiang, S., Adams, D. J., Shakespeare, S., Jones, J. T. A., . . . Cooper, A. I. (2009). Porous organic cages. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 238. Retrieved from https://www.webofscience.com/
2008
Atomistic Simulation of Micropore Structure, Surface Area, and Gas Sorption Properties for Amorphous Microporous Polymer Networks
Trewin, A., Willock, D. J., & Cooper, A. I. (2008). Atomistic Simulation of Micropore Structure, Surface Area, and Gas Sorption Properties for Amorphous Microporous Polymer Networks. The Journal of Physical Chemistry C, 112(51), 20549-20559. doi:10.1021/jp806397f
Particle size-activity relationship for CoFe<sub>2</sub>O<sub>4</sub> nanoparticle CO oxidation catalysts
Evans, G., Kozhevnikov, I. V., Kozhevnikova, E. F., Claridge, J. B., Vaidhyanathan, R., Dickinson, C., . . . Rosseinsky, M. J. (2008). Particle size-activity relationship for CoFe<sub>2</sub>O<sub>4</sub> nanoparticle CO oxidation catalysts. JOURNAL OF MATERIALS CHEMISTRY, 18(45), 5518-5523. doi:10.1039/b807412g
Vesicles from Peptidic Side-Chain Polymers Synthesized by Atom Transfer Radical Polymerization
Adams, D. J., Atkins, D., Cooper, A. I., Furzeland, S., Trewin, A., & Young, I. (2008). Vesicles from Peptidic Side-Chain Polymers Synthesized by Atom Transfer Radical Polymerization. BIOMACROMOLECULES, 9(11), 2997-3003. doi:10.1021/bm8006693
Direct synthesis of anisotropic branched polymer nanoparticles
He, T., Adams, D. J., Butler, M. F., Cooper, A. I., & Rannard, S. P. (2008). Direct synthesis of anisotropic branched polymer nanoparticles. In American Chemical Society, Polymer Preprints, Division of Polymer Chemistry Vol. 49 (pp. 30-31).
Methane storage in dry water gas hydrates
Wang, W., Bray, C. L., Adams, D. J., & Cooper, A. I. (2008). Methane storage in dry water gas hydrates. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 130(35), 11608-+. doi:10.1021/ja8048173
Rapid and reversible hydrogen storage in clathrate hydrates using emulsion-templated polymers.
Su, F., Bray, C. L., Tan, B., & Cooper, A. I. (2008). Rapid and reversible hydrogen storage in clathrate hydrates using emulsion-templated polymers.. Advanced materials (Deerfield Beach, Fla.), 20(14), 2663-2666. doi:10.1002/adma.200800550
Synthetic control of the pore dimension and surface area in conjugated microporous polymer and copolymer networks.
Jiang, J. -X., Su, F., Trewin, A., Wood, C. D., Niu, H., Jones, J. T. A., . . . Cooper, A. I. (2008). Synthetic control of the pore dimension and surface area in conjugated microporous polymer and copolymer networks.. Journal of the American Chemical Society, 130(24), 7710-7720. doi:10.1021/ja8010176
Freeze-align and heat-fuse: Microwires and networks from nanoparticle suspensions
Zhang, H., Lee, J. -Y., Ahmed, A., Hussain, I., & Cooper, A. I. (2008). Freeze-align and heat-fuse: Microwires and networks from nanoparticle suspensions. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 47(24), 4573-4576. doi:10.1002/anie.200705512
Control of porosity geometry in amino acid derived nanoporous materials.
Perez Barrio, J., Rebilly, J. -N., Carter, B., Bradshaw, D., Bacsa, J., Ganin, A. Y., . . . Rosseinsky, M. J. (2008). Control of porosity geometry in amino acid derived nanoporous materials.. Chemistry (Weinheim an der Bergstrasse, Germany), 14(15), 4521-4532. doi:10.1002/chem.200701556
Microporous Organic Polymers for Methane Storage
Wood, C. D., Tan, B., Trewin, A., Su, F., Rosseinsky, M. J., Bradshaw, D., . . . Cooper, A. I. (2008). Microporous Organic Polymers for Methane Storage. Advanced Materials, 20(10), 1916-1921. doi:10.1002/adma.200702397
Size and shape control for water-soluble magnetic cobalt nanoparticles using polymer ligands
Lu, L. T., Tung, L. D., Robinson, I., Ung, D., Tan, B., Long, J., . . . Thanh, N. T. K. (2008). Size and shape control for water-soluble magnetic cobalt nanoparticles using polymer ligands. JOURNAL OF MATERIALS CHEMISTRY, 18(21), 2453-2458. doi:10.1039/b801800f
PH-responsive branched polymer nanoparticles
Weaver, J. V. M., Williams, R. T., Royles, B. J. L., Findlay, P. H., Cooper, A. I., & Rannard, S. P. (2008). PH-responsive branched polymer nanoparticles. SOFT MATTER, 4(5), 985-992. doi:10.1039/b718118c
Mesoporous Poly(phenylenevinylene) Networks
Dawson, R., Su, F., Niu, H., Wood, C. D., Jones, J. T. A., Khimyak, Y. Z., & Cooper, A. I. (2008). Mesoporous Poly(phenylenevinylene) Networks. Macromolecules, 41(5), 1591-1593. doi:10.1021/ma702411b
Direct coprecipitation route to monodisperse dual-functionalized magnetic iron oxide nanocrystals without size selection.
Li, Z., Tan, B., Allix, M., Cooper, A. I., & Rosseinsky, M. J. (2008). Direct coprecipitation route to monodisperse dual-functionalized magnetic iron oxide nanocrystals without size selection.. Small (Weinheim an der Bergstrasse, Germany), 4(2), 231-239. doi:10.1002/smll.200700575
Conjugated microporous poly(phenylene butadiynylene)s.
Jiang, J. -X., Su, F., Niu, H., Wood, C. D., Campbell, N. L., Khimyak, Y. Z., & Cooper, A. I. (2008). Conjugated microporous poly(phenylene butadiynylene)s.. Chemical communications (Cambridge, England), (4), 486-488. doi:10.1039/b715563h
Synthesis of porous microparticles with aligned porosity
Zhang, H., Edgar, D., Murray, P., Rak-Raszewska, A., Glennon-Alty, L., & Cooper, A. I. (2008). Synthesis of porous microparticles with aligned porosity. ADVANCED FUNCTIONAL MATERIALS, 18(2), 222-228. doi:10.1002/adfm.200701309
"Naked" fluoride binding sites for physisorptive hydrogen storage
Trewin, A., Darling, G. R., & Cooper, A. I. (2008). "Naked" fluoride binding sites for physisorptive hydrogen storage. NEW JOURNAL OF CHEMISTRY, 32(1), 17-20. doi:10.1039/b714593d
Advanced amorphous porous polymer networks: Understanding molecular level structure and dynamics using solidstate Advanced amorphous porous polymer networks: Understanding molecular level structure and dynamics using solidstateAdvanced amorphous porous polymer networks: Understanding molecular level structure and dynamics using solidstate NMR
Jiang, J. X., Su, F., Trewin, A., Wood, C. D., Campbell, N. L., Niu, H., . . . Khimyak, Y. Z. (2008). Advanced amorphous porous polymer networks: Understanding molecular level structure and dynamics using solidstate Advanced amorphous porous polymer networks: Understanding molecular level structure and dynamics using solidstateAdvanced amorphous porous polymer networks: Understanding molecular level structure and dynamics using solidstate NMR. In 235th ACS National Meeting, (pp. POLY-381). LA, United States: ACS.
Combinatorial microwave synthesis of nanoporous poly(aryleneethynylene)s
Cooper, A. I., Campbell, N. L., Jiang, J. X., Stöckel, E., Dawson, R., Higgins, S., . . . Clowes, R. (2008). Combinatorial microwave synthesis of nanoporous poly(aryleneethynylene)s. In ACS National Meeting (pp. POLY-159). PA, United States: ACS.
Direct synthesis of anisotropic polymer nanoparticles by ATRP
Adams, D. A., He, T., Cooper, A. I., & Rannard, S. P. (2008). Direct synthesis of anisotropic polymer nanoparticles by ATRP. In 236th ACS National Meeting (pp. POLY-310). PA, United States: ACS.
Direct synthesis of anisotropic polymer nanoparticles.
He, T., Adams, D. J., Butler, M. F., Cooper, A. I., & Rannard, S. P. (2008). Direct synthesis of anisotropic polymer nanoparticles.. In 235th ACS National Meeting (pp. POLY-268). LA: ACS.
Facile preparation of pH-responsive branched copolymer nanoparticles.
Weaver, J. V. M., Findlay, P. H., Royles, B. L. J., Cooper, A. I., & Rannard, S. P. (2008). Facile preparation of pH-responsive branched copolymer nanoparticles.. In 235th ACS National Meeting (pp. POLY-634). LA, United States: ACS.
Fluorescent or not? Size-dependent fluorescence switching for polymer-stabilized gold clusters in the 1.1-1.7 nm size range
Schaeffer, N., Tan, B., Dickinson, C., Rosseinsky, M. J., Laromaine, A., McComb, D. W., . . . Lévy, R. (2008). Fluorescent or not? Size-dependent fluorescence switching for polymer-stabilized gold clusters in the 1.1-1.7 nm size range. ChemComm. Retrieved from http://dx.doi.org/10.1039/b809876j
Formation and enhanced biocidal activity of water-dispersable organic nanoparticles
Zhang, H., Wang, D., Butler, R., Campbell, N. L., Long, J., Tan, B., . . . Rannard, S. P. (2008). Formation and enhanced biocidal activity of water-dispersable organic nanoparticles. NATURE NANOTECHNOLOGY, 3(8), 506-511. doi:10.1038/nnano.2008.188
Nanoporous conjugated poly(aryleneethynylenes).
Jiang, J. X., Su, F., Trewin, A., & Cooper, A. I. (2008). Nanoporous conjugated poly(aryleneethynylenes).. In 235th ACS National Meeting (pp. PHYS-152). LA: ACS.
Synthesis and characterization of dendrimer/branched polymer hybrids.
Bonzi, G., Cooper, A. I., & Rannard, S. P. (2008). Synthesis and characterization of dendrimer/branched polymer hybrids.. In 235th ACS National Meeting, (pp. POLY-423). LA, United States: ACS.
Synthesis of nanoporous conjugated polymer networks.
Cooper, A. I., Jiang, J. X., Dawson, R., Su, F., Niu, H., Wood, C. D., . . . Trewin, A. (2008). Synthesis of nanoporous conjugated polymer networks.. In ACS National Meeting (pp. POLY-517). PA, United States: ACS National Meeting.
2007
Direct synthesis of anisotropic polymer nanoparticles
He, T., Adams, D. J., Butler, M. F., Yeoh, C. T., Cooper, A. I., & Rannard, S. P. (2007). Direct synthesis of anisotropic polymer nanoparticles. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 46(48), 9243-9247. doi:10.1002/anie.200703348
Thermoresponsive "particle pumps": Activated release of organic nanoparticles from open-cell macroporous polymers
Zhang, H., & Cooper, A. I. (2007). Thermoresponsive "particle pumps": Activated release of organic nanoparticles from open-cell macroporous polymers. ADVANCED MATERIALS, 19(18), 2439-+. doi:10.1002/adma.200602794
Strategies for the analysis of poly(methacrylic acid) by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry.
Wyatt, M. F., Schaeffer, N., Tan, B., & Cooper, A. I. (2007). Strategies for the analysis of poly(methacrylic acid) by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry.. Journal of the American Society for Mass Spectrometry, 18(8), 1507-1510. doi:10.1016/j.jasms.2007.05.015
Hydrogen storage using polymer-supported organometallic dihydrogen complexes: a mechanistic study.
Cooper, A. I., & Poliakoff, M. (2007). Hydrogen storage using polymer-supported organometallic dihydrogen complexes: a mechanistic study.. Chemical communications (Cambridge, England), (28), 2965-2967. doi:10.1039/b703701e
Structure-LCST relationships for end-functionalized water-soluble polymers: an "accelerated" approach to phase behaviour studies
Jana, S., Rannard, S. P., & Cooper, A. I. (2007). Structure-LCST relationships for end-functionalized water-soluble polymers: an "accelerated" approach to phase behaviour studies. CHEMICAL COMMUNICATIONS, (28), 2962-2964. doi:10.1039/b702067h
Ultra-fast microwave enhanced reversible addition-fragmentation chain transfer (RAFT) polymerization: monomers to polymers in minutes
Brown, S. L., Rayner, C. M., Graham, S., Cooper, A., Rannard, S., & Perrier, S. (2007). Ultra-fast microwave enhanced reversible addition-fragmentation chain transfer (RAFT) polymerization: monomers to polymers in minutes. CHEMICAL COMMUNICATIONS, (21), 2145-2147. doi:10.1039/b703386a
Aligned porous structures by directional freezing
Zhang, H., & Cooper, A. I. (2007). Aligned porous structures by directional freezing. ADVANCED MATERIALS, 19(11), 1529-1533. doi:10.1002/adma.200700154
Hydrogen Storage in Microporous Hypercrosslinked Organic Polymer Networks
Wood, C. D., Tan, B., Trewin, A., Niu, H., Bradshaw, D., Rosseinsky, M. J., . . . Cooper, A. I. (2007). Hydrogen Storage in Microporous Hypercrosslinked Organic Polymer Networks. Chemistry of Materials, 19(8), 2034-2048. doi:10.1021/cm070356a
CO<sub>2</sub>-in-Water Emulsion-Templated Poly(vinyl alcohol) Hydrogels Using Poly(vinyl acetate)-Based Surfactants
Lee, J. -Y., Tan, B., & Cooper, A. I. (2007). CO<sub>2</sub>-in-Water Emulsion-Templated Poly(vinyl alcohol) Hydrogels Using Poly(vinyl acetate)-Based Surfactants. Macromolecules, 40(6), 1955-1961. doi:10.1021/ma0625197
Synthesis of Emulsion-Templated Poly(acrylamide) Using CO<sub>2</sub>-in-Water Emulsions and Poly(vinyl acetate)-Based Block Copolymer Surfactants
Tan, B., Lee, J. -Y., & Cooper, A. I. (2007). Synthesis of Emulsion-Templated Poly(acrylamide) Using CO<sub>2</sub>-in-Water Emulsions and Poly(vinyl acetate)-Based Block Copolymer Surfactants. Macromolecules, 40(6), 1945-1954. doi:10.1021/ma062518e
Design of polymeric stabilizers for size-controlled synthesis of monodisperse gold nanoparticles in water
Wang, Z., Tan, B., Hussain, I., Schaeffer, N., Wyatt, M. F., Brust, M., & Cooper, A. I. (2007). Design of polymeric stabilizers for size-controlled synthesis of monodisperse gold nanoparticles in water. LANGMUIR, 23(2), 885-895. doi:10.1021/la062623h
Combinatorial discovery of reusable non-covalent supports for enzyme immobilization and catalysis
Long, J., Hutcheon, G., & Cooper, A. I. (2007). Combinatorial discovery of reusable non-covalent supports for enzyme immobilization and catalysis. Journal of Combinatorial Chemistry, 9, 3990406.
Conjugated microporous poly(aryleneethynylene) networks.
Jiang, J. -X., Su, F., Trewin, A., Wood, C. D., Campbell, N. L., Niu, H., . . . Cooper, A. I. (2007). Conjugated microporous poly(aryleneethynylene) networks.. Angewandte Chemie (International ed. in English), 46(45), 8574-8578. doi:10.1002/anie.200701595
Synthesis of Advanced Materials using Supercritical Fluids
Wood, C. D., Tan, B., Zhang, H., & Cooper, A. I. (2007). Synthesis of Advanced Materials using Supercritical Fluids. In M. F. Kemmere, & T. Meyer (Eds.), Supercritical Carbon Dioxide: Thermodynamics, Solubility and Environmental Issues (pp. 239-254). Weinheim, Germany: Elsevier.
2006
<i>In situ</i> crystallization of ionic liquids with melting points below-25 °C
Choudhury, A. R., Winterton, N., Steiner, A., Cooper, A. I., & Johnson, K. A. (2006). <i>In situ</i> crystallization of ionic liquids with melting points below-25 °C. CRYSTENGCOMM, 8(10), 742-745. doi:10.1039/b609598d
Hydrogen adsorption in microporous hypercrosslinked polymers.
Lee, J. -Y., Wood, C. D., Bradshaw, D., Rosseinsky, M. J., & Cooper, A. I. (2006). Hydrogen adsorption in microporous hypercrosslinked polymers.. Chemical communications (Cambridge, England), (25), 2670-2672. doi:10.1039/b604625h
Synthesis of hierarchically porous inorganic-metal site-isolated nanocomposites
Zhang, H., Hussain, I., Brust, M., & Cooper, A. I. (2006). Synthesis of hierarchically porous inorganic-metal site-isolated nanocomposites. CHEMICAL COMMUNICATIONS, (24), 2539-2541. doi:10.1039/b604392e
A generic approach to monofunctionalized protein-like gold nanoparticles based on immobilized metal ion affinity chromatography
Lévy, R., Wang, Z. X., Duchesne, L., Doty, R. C., Cooper, A. I., Brust, M., & Fernig, D. G. (2006). A generic approach to monofunctionalized protein-like gold nanoparticles based on immobilized metal ion affinity chromatography. CHEMBIOCHEM, 7(4), 592-594. doi:10.1002/cbic.200500457
Formation of spherical nanostructures by the controlled aggregation of gold colloids
Hussain, I., Wang, Z. X., Cooper, A. I., & Brust, M. (2006). Formation of spherical nanostructures by the controlled aggregation of gold colloids. LANGMUIR, 22(7), 2938-2941. doi:10.1021/la053126o
Ionic hydrocarbon surfactants for emulsification and dispersion polymerization in supercritical CO2
Tan, B., & Cooper, A. I. (2006). Ionic hydrocarbon surfactants for emulsification and dispersion polymerization in supercritical CO2. Macromolecules, 39, 1945-1954.
2005
In situ crystallization of low-melting ionic liquids
Choudhury, A. R., Winterton, N., Steiner, A., Cooper, A. I., & Johnson, K. A. (2005). In situ crystallization of low-melting ionic liquids. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 127(48), 16792-16793. doi:10.1021/ja055956u
Size-controlled synthesis of near-monodisperse gold nanoparticles in the 1-4 nm range using polymeric stabilizers
Hussain, I., Graham, S., Wang, Z. X., Tan, B., Sherrington, D. C., Rannard, S. P., . . . Brust, M. (2005). Size-controlled synthesis of near-monodisperse gold nanoparticles in the 1-4 nm range using polymeric stabilizers. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 127(47), 16398-16399. doi:10.1021/ja055321v
Aligned two- and three-dimensional structures by directional freezing of polymers and nanoparticles
Zhang, H. F., Hussain, I., Brust, M., Butler, M. F., Rannard, S. P., & Cooper, A. I. (2005). Aligned two- and three-dimensional structures by directional freezing of polymers and nanoparticles. NATURE MATERIALS, 4(10), 787-793. doi:10.1038/nmat1487
Reactor Studies of Supported Ionic Liquids
Scott, K., Basov, N., Jachuck, R. J. J., Winterton, N., Cooper, A., & Davies, C. (2005). Reactor Studies of Supported Ionic Liquids. Chemical Engineering Research and Design, 83(10), 1179-1185. doi:10.1205/cherd.04303
Functional oligo(vinyl acetate) CO2-philes for solubilization and emulsification.
Tan, B., & Cooper, A. I. (2005). Functional oligo(vinyl acetate) CO2-philes for solubilization and emulsification.. Journal of the American Chemical Society, 127(25), 8938-8939. doi:10.1021/ja052508d
Synthesis and CO<sub>2</sub> Solubility Studies of Poly(ether carbonate)s and Poly(ether ester)s Produced by Step Growth Polymerization
Tan, B., Woods, H. M., Licence, P., Howdle, S. M., & Cooper, A. I. (2005). Synthesis and CO<sub>2</sub> Solubility Studies of Poly(ether carbonate)s and Poly(ether ester)s Produced by Step Growth Polymerization. Macromolecules, 38(5), 1691-1698. doi:10.1021/ma047973u
Porous material and method of production thereof
Butler, R., & Cooper, A. I. (2005). Porous material and method of production thereof.
Cross-linked Polymers in Ionic Liquids: Ionic Liquids as Porogens
Snedden, P., Cooper, A. I., Khimyak, Y. Z., Scott, K., & Winterton, N. (2005). Cross-linked Polymers in Ionic Liquids: Ionic Liquids as Porogens. In C. S. Brazel, & R. D. Roger (Eds.), Ionic Liquids in Polymer Systems: Solvents, Additives and Novel Applications (Vol. 913, pp. 133-147). Washington DC: American Chemical Society.
High-throughput solubility measurements of polymer libraries in supercritical carbon dioxide
Bray, C. L., Tan, B., Wood, C. D., & Cooper, A. I. (2005). High-throughput solubility measurements of polymer libraries in supercritical carbon dioxide. Journal of Materials Chemistry, 15(4), 456. doi:10.1039/b415343j
2004
Synthesis of hierarchically porous silica and metal oxide beads using emulsion-templated polymer scaffolds
Zhang, H., Hardy, G. C., Khimyak, Y. Z., Rosseinsky, M. J., & Cooper, A. I. (2004). Synthesis of hierarchically porous silica and metal oxide beads using emulsion-templated polymer scaffolds. CHEMISTRY OF MATERIALS, 16(22), 4245-4256. doi:10.1021/cm0492944
Green synthesis of polymers using supercritical carbon dioxide
Wood, C. D., Cooper, A. I., & DeSimone, J. M. (2004). Green synthesis of polymers using supercritical carbon dioxide. Current Opinion in Solid State and Materials Science, 8(5), 325-331. doi:10.1016/j.cossms.2005.02.001
2003
Synthesis of porous cross-linked polymer monoliths using 1,1,1,2-tetrafluoroethane (R134a) as the porogen
Hebb, A. (2003). Synthesis of porous cross-linked polymer monoliths using 1,1,1,2-tetrafluoroethane (R134a) as the porogen. Composites Science and Technology, 63(16), 2379-2387. doi:10.1016/s0266-3538(03)00271-9
Synthesis of porous emulsion-templated polymers using high internal phase CO2-in-water emulsions.
Butler, R., Hopkinson, I., & Cooper, A. I. (2003). Synthesis of porous emulsion-templated polymers using high internal phase CO2-in-water emulsions.. Journal of the American Chemical Society, 125(47), 14473-14481. doi:10.1021/ja037570u
Synthesis of Polystyrene by Dispersion Polymerization in 1,1,1,2-Tetrafluoroethane (R134a) Using Inexpensive Hydrocarbon Macromonomer Stabilizers
Wood, C. D., & Cooper, A. I. (2003). Synthesis of Polystyrene by Dispersion Polymerization in 1,1,1,2-Tetrafluoroethane (R134a) Using Inexpensive Hydrocarbon Macromonomer Stabilizers. Macromolecules, 36(20), 7534-7542. doi:10.1021/ma030063c
Porous Materials and Supercritical Fluids
Cooper, A. I. (2003). Porous Materials and Supercritical Fluids. Advanced Materials, 15(13), 1049-1059. doi:10.1002/adma.200300380
Cross-Linked Polymer−Ionic Liquid Composite Materials
Snedden, P., Cooper, A. I., Scott, K., & Winterton, N. (2003). Cross-Linked Polymer−Ionic Liquid Composite Materials. Macromolecules, 36(12), 4549-4556. doi:10.1021/ma021710n
Preparation of acrylate-stabilized gold and silver hydrosols and gold-polymer composite films
Hussain, I., Brust, M., Papworth, A. J., & Cooper, A. I. (2003). Preparation of acrylate-stabilized gold and silver hydrosols and gold-polymer composite films. LANGMUIR, 19(11), 4831-4835. doi:10.1021/la020710d
Structural Control in Porous Cross-Linked Poly(methacrylate) Monoliths Using Supercritical Carbon Dioxide as a “Pressure-Adjustable” Porogenic Solvent
Hebb, A. K., Senoo, K., Bhat, R., & Cooper, A. I. (2003). Structural Control in Porous Cross-Linked Poly(methacrylate) Monoliths Using Supercritical Carbon Dioxide as a “Pressure-Adjustable” Porogenic Solvent. Chemistry of Materials, 15(10), 2061-2069. doi:10.1021/cm020979i
2002
Polymer Synthesis Using Hydrofluorocarbon Solvents. 1. Synthesis of Cross-Linked Polymers by Dispersion Polymerization in 1,1,1,2-Tetrafluoroethane
Wood, C. D., Senoo, K., Martin, C., Cuellar, J., & Cooper, A. I. (2002). Polymer Synthesis Using Hydrofluorocarbon Solvents. 1. Synthesis of Cross-Linked Polymers by Dispersion Polymerization in 1,1,1,2-Tetrafluoroethane. Macromolecules, 35(18), 6743-6746. doi:10.1021/ma025506b
2001
A New Approach To Studying the Mechanism of Catalytic Reactions: An Investigation into the Photocatalytic Hydrogenation of Norbornadiene and Dimethylfumarate Using Polyethylene Matrices at Low Temperature and High Pressure
Childs, G. I., Cooper, A. I., Nolan, T. F., Carrott, M. J., George, M. W., & Poliakoff, M. (2001). A New Approach To Studying the Mechanism of Catalytic Reactions: An Investigation into the Photocatalytic Hydrogenation of Norbornadiene and Dimethylfumarate Using Polyethylene Matrices at Low Temperature and High Pressure. Journal of the American Chemical Society, 123(28), 6857-6866. doi:10.1021/ja004345t
Recent Developments in Materials Synthesis and Processing Using Supercritical CO2
Cooper, A. I. (2001). Recent Developments in Materials Synthesis and Processing Using Supercritical CO2. Advanced Materials, 13(14), 1111-1114. doi:3.0.co;2-l">10.1002/1521-4095(200107)13:14<1111::aid-adma1111>3.0.co;2-l
Emulsion Templating Using High Internal Phase Supercritical Fluid Emulsions
Butler, R., Davies, C. M., & Cooper, A. I. (n.d.). Emulsion Templating Using High Internal Phase Supercritical Fluid Emulsions. Advanced Materials, 13(19), 1459-1463. doi:3.0.co;2-k">10.1002/1521-4095(200110)13:19<1459::aid-adma1459>3.0.co;2-k
Synthesis of Macroporous Polymer Beads by Suspension Polymerization Using Supercritical Carbon Dioxide as a Pressure-Adjustable Porogen
Wood, C. D., & Cooper, A. I. (2001). Synthesis of Macroporous Polymer Beads by Suspension Polymerization Using Supercritical Carbon Dioxide as a Pressure-Adjustable Porogen. Macromolecules, 34(1), 5-8. doi:10.1021/ma001514l
2000
Synthesis of Well-Defined Macroporous Polymer Monoliths by Sol−Gel Polymerization in Supercritical CO<sub>2</sub>
Cooper, A. I., Wood, C. D., & Holmes, A. B. (2000). Synthesis of Well-Defined Macroporous Polymer Monoliths by Sol−Gel Polymerization in Supercritical CO<sub>2</sub>. Industrial & Engineering Chemistry Research, 39(12), 4741-4744. doi:10.1021/ie000159k
Photochemical Reactions of Organometallic Complexes Impregnated into Polymers: Speciation, Isomerization, and Hydrogenation of Residual Alkene Moieties in Polyethylene
Clarke, M. J., Cooper, A. I., Howdle, S. M., & Poliakoff, M. (2000). Photochemical Reactions of Organometallic Complexes Impregnated into Polymers: Speciation, Isomerization, and Hydrogenation of Residual Alkene Moieties in Polyethylene. Journal of the American Chemical Society, 122(11), 2523-2531. doi:10.1021/ja9919276
Copolymerization of CO<sub>2</sub> and 1,2-Cyclohexene Oxide Using a CO<sub>2</sub>-Soluble Chromium Porphyrin Catalyst
Mang, S., Cooper, A. I., Colclough, M. E., Chauhan, N., & Holmes, A. B. (2000). Copolymerization of CO<sub>2</sub> and 1,2-Cyclohexene Oxide Using a CO<sub>2</sub>-Soluble Chromium Porphyrin Catalyst. Macromolecules, 33(2), 303-308. doi:10.1021/ma991162m
Polymer synthesis and processing using supercritical carbon dioxide
Cooper, A. I. (2000). Polymer synthesis and processing using supercritical carbon dioxide. Journal of Materials Chemistry, 10(2), 207-234. doi:10.1039/a906486i
Synthesis and processing of polymers using supercritical carbon dioxide
Cooper, A. I. (2000). Synthesis and processing of polymers using supercritical carbon dioxide. Journal of Materials Chemistry, (10), 207. Retrieved from http://www.liv.ac.uk/~aicooper/J_Mater_Chem_00_10_207.pdf
•Copolymerization of CO2 and 1,2-cyclohexene oxide using a CO2-soluble chromium porphyrin catalyst
Mang, S. A., Yahioglu, G., Cooper, A. I., Colclough, M. E., Chauhan, N., & Holmes, A. B. (2000). •Copolymerization of CO2 and 1,2-cyclohexene oxide using a CO2-soluble chromium porphyrin catalyst. Macromolecules, 33, 303-308.
1997
•Extraction of a hydrophilic compound from water into liquid CO2 using dendritic surfactants
Cooper, A. I., & al, E. (1997). •Extraction of a hydrophilic compound from water into liquid CO2 using dendritic surfactants. Nature, 389, 333.