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EPSRC Support by Research Area (RF & Microwave Devices) in Theme (Engineering)

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 (£)
Integrated GaN-Diamond Microwave Electronics: From Materials, Transistors to MMICsKuball, Professor MUniversity of BristolPhysics 4,325,358
MEFA: Mapping and Enabling Future AirspacePetrovskii, Professor SUniversity of LeicesterMathematics 34,973
MEFA: Mapping and Enabling Future AirspaceBaker, Professor CUniversity of BirminghamElectronic, Electrical and Computer Eng 879,278
Microfluidic Molecular Communications: Design, Theory, and ManufactureDeng, Dr YKings College LondonInformatics 269,351
PNEUMACRIT: Preterm Neonate / neonatal Embedded Universal Microelectronic wearable Acquisition for Cardio Respiratory Intensive TherapyDemosthenous, Professor AUCLElectronic and Electrical Engineering 693,594
PNEUMACRIT: Preterm Neonate / neonatal Embedded Universal Microelectronic wearable Acquisition For Cardio Respiratory Intensive TherapyMalliaras, Professor GUniversity of CambridgeEngineering 254,256
PNEUMACRIT: Preterm Neonate / neonatal Embedded Universal Microelectronic wearable Acquisition For Cardio Respiratory Intensive TherapyBayford, Professor RMiddlesex UniversityFaculty of Science & Technology 785,534
Programmable Microwave Hardware Based on Liquid Wires (PROGRAMMABLE)Wang, Dr YUniversity of BirminghamElectronic, Electrical and Computer Eng 446,111
Programmable Microwave Hardware Based on Liquid Wires (PROGRAMMABLE)Kelly, Dr JQueen Mary University of LondonSch of Electronic Eng & Computer Science 425,970
Sub-THz Radar sensing of the Environment for future Autonomous Marine platforms - STREAMGashinova, Professor MUniversity of BirminghamElectronic, Electrical and Computer Eng 854,175
Sub-THz Radar sensing of the Environment for future Autonomous Marine platforms (STREAM)Robertson, Dr DAUniversity of St AndrewsPhysics and Astronomy 658,895

Total Number of Grants: 11
Total Value of Grants: £9,627,494

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