Electrochemical sensor characterisation; process modelling batteries
Research Teams
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Molecular simulations, solids, soft matter & liquids; Speciality biomolecules, organics
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Corrosion processes (nuclear); steels and graphite
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Material modelling (FEA, FDM, FUM); biomaterials; mechanical characterisation
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Electronic structure calculation (quantum Monte Carlo calculation in particular); applications in 2D, semi-conductors, high pressure, physics etc
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Molecular structural & dynamic characterisation of solids; molecular level modelling of solids (structure, geometry, disorder)
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Optical Spectroscopy; ultra-high magnetic fields
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X-ray scattering; pair distribution function; atomic structure modelling (distortion, disorder, nanostructure); big-data approach
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Single molecule and atomic resolution imaging and characterisation; UHV growth functional molecular structures
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Electronic structure simulation; nuclear materials; materials simulation, structural/characterisation energetics
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Multi-scale modelling of surfaces and interfaces between inorganic/organic materials, including electron and phonon transport.
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2D materials, modelling, mesoscopic, electronic transport and spectroscopy modelling (various)
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Expertise in radiation damage modelling in semiconductors
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Dr Samuel Murphy
Atomistic modelling, electronic structure, molecular mechanics; nuclear materials, radiation damage, defects
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Nanoscale surface roughness
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Nanoscale scanning probe microscopy; solid/liquid interfaces
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Electrochemistry - analytical methods both electrochemical and traditional; thermodynamics, kinetics, characterisation of redox molecules and redox active surfaces
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Computational methodologies (DFT) for structural generation, analysis and characterisation of porous materials; surface area, gas adsorption
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Modelling of laminated composite aircraft wing panels; failure damage
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Nanoscale characterisation of materials surfaces, mechanical, thermal, electrical, thermoelectrical; time domain/dynamic US-MSl; 3D C 1?m -1?m depth
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Scanning probe microscopy
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2D materials, optoelectronics
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Processing graphene for dispersion in concrete
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Copolymerisation: biocompatible and biodegradable polyesters for biomedical applications
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Professor Corina Sas
Interface & interaction services; user experience; material qualities; materials models & technologies
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Professor Rob Short
Apply surfaces; biology
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Additive manufacturing; micro engineering
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Fabrication and testing of ultra-thin films for application in solar cells; measurement of time-resolved fluorescence (spectroscopy and microscopy)
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Molecular synthesis; molecular receptors, interlocked molecules
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Biomorphic sensors
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Dr Verena Gortz
Thin film actuators based on liquid crystal elastomers
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Transparent electronics - growing n-type transistors by solution processing
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Professor Roger Pickup
Microbiology; molecular ecology re. Human pathogens, antimicrobial surface & treatments