1. |
| Torrente Murciano, Professor L | University of Cambridge | A paradigm shift in nitrogen activation for green ammonia synthesis | 200,617 |
2. |
| Pandhal, Dr J | University of Sheffield | World's first biologically-activated aerosols: for carbon capture without the need for storage | 201,833 |
2. |
| Parri, Professor HR | Aston University | Scaff-Net: 3 Dimensional multiphoton polymerisation printed scaffolds for medium throughput recording from stem cell derived human cortical networks. | 201,118 |
2. |
| Di Michele, Dr L | University of Cambridge | EPSRC New Horizons 2021: Engineering synthetic synapses between artificial and biological cells. | 202,296 |
3. |
| Serpell, Dr CJ | University of Kent | Targeting the infectious potential of prions with DNA nanotechnology | 201,710 |
3. |
| Boussahel, Dr A | University of Bristol | Immunoengineering Body Fat: Modelling microphages in a 3D-bioprinted human adipose tissue model | 202,159 |
3. |
| Torode, Dr T | Keele University | Engineering saline resistance in land plants | 202,240 |
4. |
| Li, Professor Y | University of Birmingham | Development of functional porous particulates for green ammonia production | 200,218 |
4. |
| Crane, Dr R | University of Exeter | Key-hole mining: engineering solutions towards zero-waste anodic electro-oxidation of green technology metals from sulphidic ores (ZERO-electro) | 201,859 |
4. |
| Turnbull, Professor J | Keele University | GlycoMatrix: Engineering Tunable Stem Cell Niches Enhanced with Glycosaminoglycan Instructive Cues | 202,139 |
4. |
| Miller, Professor GJ | Keele University | Engineering next generation bioresponsive biopolymers: mimetic cartilage proteoglycans | 198,351 |
5. |
| Wang, Dr X | Lancaster University | New Route to Zero Carbon Hydrogen | 202,264 |
5. |
| Papaioannou, Dr E | Lancaster University | Integrating membrane processes into hydroponics systems to promote plant growth, recover added-value root exudates and recycle nutrients | 201,124 |
5. |
| Vollmer, Professor F | University of Exeter | The quantum avian compass probed on the single molecule level | 200,889 |
6. |
| | | Not Funded | |
7. |
| | | Not Funded | |
7. |
| | | Not Funded | |
7. |
| | | Not Funded | |
7. |
| | | Not Funded | |
7. |
| | | Not Funded | |
8. |
| | | Not Funded | |
9. |
| | | Not Funded | |
9. |
| | | Not Funded | |
9. |
| | | Not Funded | |
9. |
| | | Not Funded | |
9. |
| | | Not Funded | |
9. |
| | | Not Funded | |
9. |
| | | Not Funded | |
10. |
| | | Not Funded | |
11. |
| | | Not Funded | |
12. |
| | | Not Funded | |
13. |
| | | Not Funded | |
13. |
| | | Not Funded | |
14. |
| | | Not Funded | |
14. |
| | | Not Funded | |
15. |
| | | Not Funded | |
|