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EPSRC Support by Research Area (Microelectronics Device Technology) in Theme (Physical Sciences)

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 (£)
Cutting the Edge - a Plasma Focused Ion Beam (PFIB) facility for supporting UK research in novel 3D materials research and device fabricationMartin, Dr TLUniversity of BristolPhysics 2,157,092
EPSRC-SFI: An ocean microlab for autonomous dissolved inorganic carbon depth profile measurementMaguire, Professor PUniversity of UlsterNanotechnology and Adv Materials Inst 602,640
Ferroelectric gating for agile and reconfigurable 2D electronicsAlexe, Professor MUniversity of WarwickPhysics 840,197
FINER: Future thermal Imaging with Nanometre Enhanced ResolutionKuball, Professor MUniversity of BristolPhysics 691,079
High Resolution Unconventional Lithography for Advanced MaterialsBoya, Dr RUniversity of Manchester, ThePhysics and Astronomy 929,824
Low Resistance Contacts on Atomically Thin Body Semiconductors for Energy Efficient Electronics (LoResCon)Chhowalla, Professor MUniversity of CambridgeMaterials Science & Metallurgy 940,086
Magnetic Architectures for Reservoir Computing Hardware (MARCH)Hayward, Dr T JUniversity of SheffieldMaterials Science and Engineering 936,815
MARCH: Magnetic Architectures for Reservoir Computing HardwareStepney, Professor SUniversity of YorkComputer Science 1,162,095
Monolithic On-chip Integration of Electronics & Photonics Using III-nitrides for TelecomsMartin, Professor RWUniversity of StrathclydePhysics 259,684
Monolithic On-chip Integration of Electronics & Photonics Using III-nitrides for TelecomsSmith, Dr RMUniversity of SheffieldElectronic and Electrical Engineering 607,797
Monolithic On-chip Integration of Electronics & Photonics Using III-nitrides for TelecomsKesaria, Dr MCardiff UniversitySchool of Physics and Astronomy 437,465
Nanoscale Advanced Materials EngineeringCurry, Professor RJUniversity of Manchester, TheElectrical and Electronic Engineering 7,671,801
New direction in high temperature dielectrics: unlocking performance of doped tungsten bronze oxides through mechanistic understandingHall, Dr DAUniversity of Manchester, TheMaterials 231,813
New directions in high temperature dielectrics: unlocking performance of doped tungsten bronze oxides through mechanistic understandingBristowe, Dr NDurham, University ofPhysics 77,006
New directions in high temperature dielectrics: unlocking performance of doped tungsten bronze oxides through mechanistic understandingBeanland, Professor RUniversity of WarwickPhysics 376,462
New directions in high temperature dielectrics: unlocking performance of doped tungsten bronze oxides through mechanistic understandingSinclair, Professor DUniversity of SheffieldMaterials Science and Engineering 147,351
New directions in high temperature dielectrics: unlocking performance of doped tungsten bronze oxides through mechanistic understandingBrown, Professor APUniversity of LeedsChemical and Process Engineering 432,804
Oxide and chalcogenide MOCVD (metal-organic chemical vapour deposition)Lamb, Dr DASwansea UniversityCollege of Engineering 2,639,023
Oxide Recurrent Neural NetworksBorisov, Dr PLoughborough UniversityPhysics 277,037
Probing the States of Single Molecules for Sensing and Multi-value Memory ApplicationsPaul, Professor DJUniversity of GlasgowSchool of Engineering 1,581,050
Rapid Prototyping of Novel Devices with In-situ Deposition, Imaging and NanolithographyMorrison, Professor KLoughborough UniversityPhysics 1,997,801
Silicon Carbide Power Conversion for Telecommunications Satellite ApplicationsGammon, Professor PMUniversity of WarwickSch of Engineering 746,426
TESiC-SuperJ - Trench Epitaxy for SiC Superjunctions: technology enabling low loss HVDC power electronics.Shah, Dr VUniversity of WarwickSch of Engineering 398,802

Total Number of Grants: 23
Total Value of Grants: £26,142,150

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