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Name: |
Professor J McGrady |
Organisation: |
University of Oxford |
Department: |
Oxford Chemistry |
Current EPSRC-Supported Research
Topics: |
Co-ordination Chemistry
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Materials Characterisation
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Materials Synthesis & Growth
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Current EPSRC Support |
EP/T027991/1 | Exploiting the anion Chemistry of solids for Future Advanced Functional Materials: Core-to-Core Project on Mixed Anion Research for Energy Conversion | (C) |
EP/T010681/1 | Beyond cyanide: Future synthons based on the cyaphide and cyarside ions for the synthesis of designer magnetic coordination polymers | (C) |
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Previous EPSRC Support |
EP/K021435/1 | A unified model for transition-metal mediated electron transport | (P) |
EP/H024107/1 | Molecular-Metal-Oxide-nanoelectronicS (M-MOS): Achieving the Molecular Limit | (C) |
EP/G002789/2 | International Collaboration in Chemistry: Experimental and Theoretical Study of Redox-Active Fe4O4-Cubanes | (P) |
EP/F019327/2 | Electron transport through extended metal atom chains | (P) |
EP/G002789/1 | International Collaboration in Chemistry: Experimental and Theoretical Study of Redox-Active Fe4O4-Cubanes | (P) |
EP/F047851/1 | Artificial Photosynthesis: Solar Fuels | (C) |
EP/F019327/1 | Electron transport through extended metal atom chains | (P) |
EP/C534425/2 | In search of a fundamental understanding of C-H & C-C agostic bonds | (P) |
EP/C534425/1 | In search of a fundamental understanding of C-H & C-C agostic bonds | (P) |
GR/R74963/01 | A combined experimental and theoretical investigation of oxygen activation by palladium dimers | (P) |
GR/R74970/01 | A combined experimental and theoretical investigation of oxygen activation by palladium dimers | (C) |
GR/N06533/01 | A DENSITY FUNCTIONAL STUDY OF METAL-METAL BONDING: IMPLICATIONS FOR STRUCTURE AND REACTIVITY | (P) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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