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EPSRC Support by Research Area (Materials For Energy Applications) in Theme (Energy)

Research areas are used to describe EPSRC's portfolio of excellent long term research and high quality postgraduate training.

Grants are classified using one or more research areas. The number and value of grants listed below reflects how the theme portfolio is described by this research area.

Please note: some research areas will appear under multiple themes. There is no unique, absolute, relationship between a research area and a theme.

Grant TitlePrincipal
Investigator
OrganisationDepartmentTotal Grant
Value (£)
ASPIRE: Advanced Self-Powered sensor units in Intense Radiation EnvironmentsScott, Professor TBUniversity of BristolInterface Analysis Centre 874,924
Carrier Selective Layers: Enabling the True Potential of Nanostructured PhotovoltaicsMokkapati, Dr SCardiff UniversitySchool of Physics and Astronomy 279,442
Centre for Advanced Materials for Integrated Energy Systems (CAM-IES)Grey, Professor CPUniversity of CambridgeChemistry 2,098,617
Centre for Advanced Materials for Renewable Energy GenerationKiprakis, Dr AUniversity of EdinburghSch of Engineering 2,037,439
Enabling next generation lithium batteriesBruce, Professor PUniversity of OxfordMaterials 6,799,833
enabling Sixty Years creep-fatigue life of the NExt generation nuclear Reactors 'SYNERgy'Chen, Professor BUniversity of LeicesterEngineering 1,247,261
Engineering energetic barriers to bimolecular recombination in polymer/fullerene solar cellsClarke, Dr T MUCLChemistry 984,957
Integrated atomic force and confocal fluorescence lifetime imaging microscope with fibre-coupled infrared detector for materials researchMartin-Fabiani, Dr ILoughborough UniversityMaterials 817,064
Ionic Liquid Electrolytes for Intermediate Temperature ElectrolysersScott, Professor KNewcastle UniversitySch of Engineering 291,240
Ionic Liquid Electrolytes for Intermediate-Temperature ElectrolysersWalsh, Dr DAUniversity of NottinghamSch of Chemistry 446,260
Multiscale tuning of interfaces and surfaces for energy applicationsIrvine, Professor JUniversity of St AndrewsChemistry 2,075,702
New Engineering Concepts from Phase Transitions: A Leidenfrost EngineMcHale, Professor GNorthumbria, University ofFac of Engineering and Environment 428,508
Optimisation of charge carrier mobility in nanoporous metal oxide filmsMckenna, Dr KPUniversity of YorkPhysics 798,645
Self-assembling Perovskite Absorbers - Cells Engineered into Modules (SPACE-Modules)Holliman, Professor PSwansea UniversityCollege of Engineering 1,827,825
Silicide-Strengthened Steel - A New Method of Wear Protection within Nuclear EnvironmentsPreuss, Professor MUniversity of Manchester, TheMaterials 200,823
The Origin of Non-Radiative Losses in Metal Halide PerovskitesStranks, Dr S DUniversity of CambridgePhysics 273,163
Towards Self-scrubbing Stable and Scalable Perovskite Solar CellsSaunders, Professor BUniversity of Manchester, TheChemistry 855,778
Towards Self-scrubbing Stable and Scalable Perovskite Solar CellsIslam, Professor MSUniversity of BathChemistry 317,753
Towards Self-scrubbing Stable and Scalable Perovskite Solar CellsHaque, Dr SAImperial College LondonDept of Chemistry 984,254
Ultra-high voltage (>30KV) power devices through superior materials for HVDC transmissionShah, Dr VUniversity of WarwickSch of Engineering 726,523

Total Number of Grants: 20
Total Value of Grants: £24,366,013

The grant value may include the cost of access to facilities (these funds are not awarded to the grant holding organisation).