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Researcher Details
 
Name: Professor IS Metcalfe
Organisation: Newcastle University
Department: Sch of Engineering
Current EPSRC-Supported Research Topics:
Design of Process systems Fuel Cell Technologies
Materials Characterisation Separation Processes
Sustainable Energy Vectors

Current EPSRC Support
EP/W03395X/1 Design, Program, Evolve: Engineering efficient electrochemical devices for a net-zero world(C)
EP/V047078/1 SynHiSel(C)
Previous EPSRC Support
EP/R023921/1 Emergent Nanomaterials (Critical Mass Proposal)(P)
EP/P024807/1 Hydrogen and Fuel Cells Hub Extension (H2FC SUPERGEN)(C)
EP/P020534/1 Advanced Inorganic Functional Materials: Floating Zone Crystal Growth System(C)
EP/P009050/1 Elucidation of membrane interface chemistry for electro-chemical processes(C)
EP/P007767/1 Centre for Advanced Materials for Integrated Energy Systems (CAM-IES)(C)
EP/K014706/2 The UK Catalysis Hub(C)
EP/M01486X/1 From membrane material synthesis to fabrication and function (SynFabFun)(P)
EP/K029649/1 Energy and the Physical Sciences: Advanced materials for thermo-chemical oxygen storage and production(P)
EP/K014706/1 The UK Catalysis Hub(C)
EP/J016454/1 Hydrogen and Fuel Cell Supergen Hub(C)
EP/J000892/1 Multiscale in-situ characterisation of degradation and reactivity in solid oxide fuel cells(P)
EP/G025649/1 Micro- and nano-patterned electrodes for the study and control of spillover processes in catalysis(P)
EP/G012865/1 Ceramic membranes for energy applications and CO2 capture(P)
EP/G01244X/1 SUPERGEN: Delivery of Sustainable Hydrogen(P)
EP/E033687/1 A novel membrane reactor for catalyst activity control(P)
EP/E00220X/1 Hollow Fibre Solid Oxide Fuel Cells(P)
GR/S12197/02 Carbon dioxide recovery from combustion processes using structured ceramic membranes(P)
GR/S12197/01 Carbon dioxide recovery from combustion processes using structured ceramic membranes(P)
GR/N05604/02 COMBINED CHEMICAL PRODUCTION & POWER GENERATION (USING A NEW CERAMIC FUEL CELL REACTOR)(C)
GR/N05604/01 COMBINED CHEMICAL PRODUCTION & POWER GENERATION (USING A NEW CERAMIC FUEL CELL REACTOR)(C)
GR/M21355/01 'LATTICE ATMOSPHERE' MODEL OF OXIDE CATALYSIS(P)
GR/K58319/02 ANODE MATERIALS & PERFORMANCE IN SUPPORTED ELECTROLYTE SOFC USING INTERNALLY REFORMED NATURAL GAS @ INTER TE(P)
GR/L00612/01 NOVEL APPARATUS FOR COMBINED GRAVIMETRIC, CATALYTIC AND ELECTROCATALYTIC MEASUREMENTS(P)
GR/K58319/01 ANODE MATERIALS & PERFORMANCE IN SUPPORTED ELECTROLYTE SOFC USING INTERNALLY REFORMED NATURAL GAS @ INTER TE(P)
GR/K21184/01 INTEGRATED CATALYTIC WET OXIDATION - REVERSE OSMOSIS PROCESS FOR THE REMOVAL OF ORGANICS FROM WASTEWATER(P)
GR/J14233/01 POTENTIONMETRIC SENSOR FOR PARTIAL OXIDATION PROCESS MONITORING AND CONTROL(P)
GR/J01561/01 EVALUATION OF SINGLE SOFC CELLS AND SMALL STACKS OPERATING AT 500OC:(P)
GR/H85137/01 OXIDE ANODES FOR METHANE ACTIVATION IN CERAMIC ELECTROCHEMICAL REACTORS; TEMP. PROG. STUDIES(P)
GR/H33213/01 SOLID STATE ELECTROCHEMICAL REACTORS FOR THE MODIFICATION OF CATALYTIC BEHAVIOUR(P)
GR/F97294/01 OXIDE ANODES FOR METHANE ACTIVATION PROCESSES IN CERAMIC ELECTROCHEMICAL REACTORS(C)
GR/E97938/01 PROMOTED MULTICOMPONENT CATALYSTS IN SYNTHESIS GAS REACTIONS:A MULTIDISCIPLINARY INVESTIGATION(C)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator