Our Research Facilities
From sophisticated laboratories and resources we have everything you need to complete your research or education.
- Cartographic Suite (Roxby Building & Jane Herdman Building). The Cartographics Design Studio has three full time members of staff and is primarily involved with providing a service to the School of Environmental Sciences, other University departments and external clients, with expertise in Cartography, Graphic Design, Desktop Publishing and Digital Imaging
- Electron Microscopy Laboratory – EBSD-SEM (Nicholson Building). Offers cutting edge technology and expertise in electron backscatter diffraction (EBSD) and energy dispersive spectroscopy (EDS) in the scanning electron microscope (SEM). EBSD and EDS are applied to numerous different disciplines at the forefront of research. The laboratory comprises a Philips XL30 tungsten filament SEM and a CamScan X500 CrystalProbe field emission gun (FEG) SEM
- Geomagnetism Laboratory (Oliver Lodge Laboratory). Has state-of-the art technology and expertise and a wide scope of research interests in Palaeo-, Geo- and Archaeomagnetism
- Rock deformation Laboratory (Jane Herdman Building). Research in fault zone permeability structure, earthquake nucleation in faults such as the San Andreas and characterisation of hydrocarbon reservoir fluid flow properties
- Volcanology Laboratories (Jane Herdman Building). The Volcanology research group at the University of Liverpool is an innovative and interdisciplinary volcanology team, aiming to constrain fundamental magmatic and volcanic processes, actively integrating field investigations, volcano monitoring and pioneering experimental studies to provide an answer to the signals that accompany magma transport and its eruptions onto the Earth’s surface.
- Lifer Laboratory (Nicholson Building). The Liverpool Isotope Facility for Environmental Research (LIFER) was established in 2010 and contains state-of-the-art instrumentation for the analysis of stable isotopes of carbon, nitrogen, oxygen and hydrogen in solid, liquid and gaseous organic and inorganic chemicals. The mine of information stored in these chemicals lead to this branch of stable isotope geochemistry being a valuable tool in geology, oceanography, marine ecology, palaeoceanography and palaeolimnology, archaeology and the life sciences.