EPSRC logo
EPSRC Support by Research Area (Catalysis) 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 (£)
3DSynth: Design and fabrication of cartridges for digital chemical synthesisCronin, Professor LUniversity of GlasgowSchool of Chemistry 999,034
A Facility for Cryo-Enabled Multi-microscopy for Nanoscale Analysis in the Engineering and Physical Sciences (Cryo-EPS)Giuliani, Professor FImperial College LondonMaterials 10,294,044
A Scalable Process for the Chemical Recycling of PET using Ionic OrganocatalystsWood, Professor JUniversity of BirminghamChemical Engineering 941,411
ATLAS - Automated high-throughput platform suite for accelerated molecular systems discoveryPetit, Professor CImperial College LondonChemical Engineering 1,281,110
Bio-derived and Bio-inspired Advanced Materials for Sustainable Industries (VALUED)Titirici, Professor MImperial College LondonChemical Engineering 6,139,080
Catalytic Microwave Process for Upgrading of Pyrolysis Liquids from Ubiquitous Plastic WastesRochelle, Dr CABritish Geological SurveyBGS Laboratories 21,315
Catalytic Microwave Process for Upgrading of Pyrolysis Liquids from Ubiquitous Plastic WastesWood, Professor JUniversity of BirminghamChemical Engineering 533,400
Catalytic Microwave Process for Upgrading of Pyrolysis Liquids from Ubiquitous Plastic WastesBinner, Dr E RUniversity of NottinghamFaculty of Engineering 435,515
Hub 'Science' 3: Catalysis for the Circular Economy and Sustainable ManufacturingDavidson, Professor MGUniversity of BathChemistry 3,938,126
Manufacturing of BN ceramic fibres for high performance applications enabled by the catalytic dehydropolymerisation of main group amine-boranesWeller, Professor AUniversity of YorkChemistry 531,823
Manufacturing of BN ceramic fibres for high performance applications enabled by the catalytic dehydropolymerisation of main group amine-boranesGrobert, Professor NUniversity of OxfordMaterials 674,731
NEW DIRECTIONS IN FLOW ELECTROSYNTHESISWirth, Professor TCardiff UniversityChemistry 468,778
Novel Low-Temperature Plasma-Catalyst Control of Dioxin & Furan Emissions from Waste IncineratorsWilliams, Professor PUniversity of LeedsChemical and Process Engineering 763,414
Sustainable Production of ACrylic acId from reNewable waste GlycerolD'Agostino, Dr CUniversity of Manchester, TheChem Eng and Analytical Science 620,319
The UK Catalysis Hub -'Core'Hutchings, Professor GCardiff UniversityChemistry 2,201,661
The UK Catalysis Hub - 'Science': 1 - Optimising, predicting and designing new CatalystsCatlow, Professor RCardiff UniversityChemistry 3,683,535
The UK Catalysis Hub - 'Science': 2 Catalysis at the Water-Energy NexusHardacre, Professor CUniversity of Manchester, TheChem Eng and Analytical Science 4,010,674
The UK Dynamic Nuclear Polarisation Magic Angle Spinning NMR FacilityGrey, Professor CPUniversity of CambridgeChemistry 247,949
The UK Dynamic Nuclear Polarisation Magic Angle Spinning NMR FacilityLee, Dr DUniversity of Manchester, TheChem Eng and Analytical Science 2,881,145
The UK Dynamic Nuclear Polarisation Magic Angle Spinning NMR FacilityKockenberger, Dr WUniversity of NottinghamSch of Physics & Astronomy 1,857,395

Total Number of Grants: 20
Total Value of Grants: £42,524,461

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