EPSRC logo
Researcher Details
 
Name: Professor J Darr
Organisation: UCL
Department: Chemistry
Current EPSRC-Supported Research Topics:
Electrochemical Science & Eng. Electronic Devices & Subsys.
Energy Efficiency Energy Storage
Fuel Cell Technologies Manufact. Enterprise Ops& Mgmt
Manufacturing Machine & Plant Materials Processing
Solar Technology

Current EPSRC Support
EP/R023662/1 ISCF Wave 1: (The JUICED Hub [Joint University Industry Consortium for Energy (Materials) and Devices Hub])(P)
EP/M009394/1 ELEVATE (ELEctrochemical Vehicle Advanced TEchnology)(C)
EP/L017709/1 Sustainable Manufacturing of Transparent Conducting Oxide (TCO) Inks and Thin Films(C)
Previous EPSRC Support
EP/P510385/1 Low cost high energy density anode for stationary energy storage(P)
EP/M014045/1 Electrodes by Design - Microstructural Engineering of High Performance Electrodes for Solid Oxide Fuel Cells(C)
EP/K035355/2 Bio-inspired sulfide nanocatalysts: From proof of concept to 'real' catalysis(C)
EP/M008754/1 Sustainable Oxidation Catalysts for the Production of Solar Hydrogen and Chlorine from Brine(P)
EP/L022168/1 Laser-induced Photochemistry in Continuous Flow Reactors(C)
EP/K035355/1 Bio-inspired sulfide nanocatalysts: From proof of concept to 'real' catalysis(C)
EP/J500136/1 Nanocrystalline Water Splitting Photodiodes II; Device Engineering, Integration and Scale-up(C)
EP/H046313/1 Bio-inspired (Fe,Ni)S nano-catalysts for CO2 conversion(C)
EP/E040551/1 Continuous Hydrothermal Synthesis of Nanomaterials: From Laboratory to Pilot Plant(P)
EP/F056168/1 Nanocrystalline Photodiodes: Novel Devices for Water Splitting(C)
EP/D038499/2 HIGH THROUGHPUT INORGANIC NANOMATERIALS DISCOVERY(P)
EP/D038499/1 HIGH THROUGHPUT INORGANIC NANOMATERIALS DISCOVERY(P)
GR/S79183/01 CLEAN AND CONTROLLED GROWTH OF NANOCERAMIC PARTICLES FOR INKS(P)
GR/A11304/01 AF: NEXT GENERATION BIOMEDICAL MATERIALS FROM SUPERCRITICAL FLUIDS(P)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator