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| Name: |
Professor SJ Skinner |
| Organisation: |
Imperial College London |
| Department: |
Materials |
| Current EPSRC-Supported Research
Topics: |
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Biomaterials
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Energy Storage
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Fuel Cell Technologies
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Light-Matter Interactions
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Magnetism/Magnetic Phenomena
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Materials Characterisation
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Materials Synthesis & Growth
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Plasmas - Laser & Fusion
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Solar Technology
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| Current EPSRC Support |
| EP/S023259/1 | EPSRC and SFI Centre for Doctoral Training in the Advanced Characterisation of Materials (CDT-ACM) | (P) |
| EP/R023581/1 | ISCF Wave 1: Materials research hub for energy conversion, capture, and storage | (C) |
| EP/R002010/1 | Understanding the critical role of interfaces and surfaces in energy materials | (P) |
| EP/P029914/1 | High Five: Resolution, Sensitivity, in operando Control, Ultra High Vacuum and Ion Sectioning in a Single Instrument | (C) |
| EP/P026478/1 | Solid Oxide Interfaces for Faster Ion Transport (SOIFIT) | (P) |
| EP/L015277/1 | EPSRC Centre for Doctoral Training in the Advanced Characterisation of Materials | (P) |
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| Previous EPSRC Support |
| EP/M014142/1 | Control of structure, strain and chemistry: a route to designer fuel cell interfaces | (P) |
| EP/J003085/1 | Multiscale in-situ characterisation of degradation and reactivity in solid oxide fuel cells | (P) |
| EP/H006060/1 | Determination of Surface and Interface Processes in Materials Science | (C) |
| EP/F009720/1 | New Research Directions for Solid Oxide Fuel Cell Science and Engineering | (C) |
| EP/D503523/1 | Novel electrochemical solid state gas sensors | (P) |
| GR/S61676/01 | Oxygen excess K2NiF4 oxides for harsh environment carbon monoxide (CO) sensing | (C) |
| GR/N23233/01 | THERMAL STABILITY OF NEW ION CONDUCTING OXIDES | (P) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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