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Name: |
Professor D Brett |
Organisation: |
UCL |
Department: |
Chemical Engineering |
Current EPSRC-Supported Research
Topics: |
Electrochemical Science & Eng.
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Energy Efficiency
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Energy Storage
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Fuel Cell Technologies
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Manufacturing Machine & Plant
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Materials Characterisation
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Materials Processing
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Solar Technology
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Sustainable Energy Vectors
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Waste Minimisation
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Current EPSRC Support |
EP/T02593X/1 | National Research Facility for Lab X-ray CT | (C) |
EP/S032061/1 | Decarbonising the UK's Freight Transport | (C) |
EP/S018204/2 | Sustainable Processing of Energy Materials from Waste | (C) |
EP/R023581/1 | ISCF Wave 1: Materials research hub for energy conversion, capture, and storage | (C) |
EP/P009050/1 | Elucidation of membrane interface chemistry for electro-chemical processes | (C) |
EP/N032888/1 | Multi-scale ANalysis for Facilities for Energy STorage (Manifest) | (C) |
EP/L015749/1 | EPSRC Centre for Doctoral Training in Fuel Cells and their Fuels - Clean Power for the 21st Century | (C) |
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Previous EPSRC Support |
EP/S018204/1 | Sustainable Processing of Energy Materials from Waste | (C) |
EP/R020973/1 | ISCF Wave 1: Translational Energy Storage Diagnostics (TRENDs) | (C) |
EP/N022971/1 | Power-Up! Fuelling a new generation of assistive technologies | (C) |
EP/K014706/2 | The UK Catalysis Hub | (C) |
EP/N001583/1 | AMorphous Silicon Alloy Anodes for Multiple Battery Systems - "AMorpheuS" | (C) |
EP/M014045/1 | Electrodes by Design - Microstructural Engineering of High Performance Electrodes for Solid Oxide Fuel Cells | (C) |
EP/M014371/1 | FUEL CELL TECHNOLOGIES FOR AN AMMONIA ECONOMY | (P) |
EP/M023508/1 | Innovative concepts from Electrodes to Stacks | (C) |
EP/M009394/1 | ELEVATE (ELEctrochemical Vehicle Advanced TEchnology) | (C) |
EP/K035355/2 | Bio-inspired sulfide nanocatalysts: From proof of concept to 'real' catalysis | (C) |
EP/L014289/1 | Lower Cost and Longer Life Flow Batteries for Grid Scale Energy Storage | (C) |
EP/L018616/1 | PACIFIC - Providing a Nuclear Fuel Cycle in the UK for Implementing Carbon Reductions | (C) |
EP/L017091/1 | Carbon Nitrides: Metal-free Materials for Energy Applications | (C) |
EP/K038656/1 | Centre for Nature Inspired Engineering (CNIE): Addressing Challenges in Sustainability and Scalable Manufacturing | (C) |
EP/K035355/1 | Bio-inspired sulfide nanocatalysts: From proof of concept to 'real' catalysis | (C) |
EP/K014706/1 | The UK Catalysis Hub | (C) |
EP/J001007/1 | Multiscale in-situ characterisation of degradation and reactivity in solid oxide fuel cells | (P) |
EP/I037024/1 | "Mind the Gap" - jumping the hurdles limiting polymer fuel cell performance and commercialisation | (C) |
EP/J000531/1 | REFINE: a coordinated materials programme for the sustainable REduction of spent Fuel vital In a closed loop Nuclear Energy cycle | (P) |
EP/J500136/1 | Nanocrystalline Water Splitting Photodiodes II; Device Engineering, Integration and Scale-up | (C) |
EP/G04483X/1 | The Flexible Fuel Cell | (P) |
EP/G030995/1 | Supergen Fuel Cell Consortium - Fuel cells - Powering a Greener Future - CORE | (C) |
EP/G060991/1 | Developing an experimental functional map of polymer electrolyte fuel cell operation | (P) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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