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| Name: |
Professor CJ Pickard |
| Organisation: |
University of Cambridge |
| Department: |
Materials Science & Metallurgy |
| Current EPSRC-Supported Research
Topics: |
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| Current EPSRC Support |
| EP/T022213/1 | The Materials and Molecular Modelling Hub | (C) |
| EP/S021981/1 | Exploiting the European XFEL for a New Generation of High Energy Density and Materials Science | (P) |
| EP/P020194/1 | Tier 2 Hub in Materials and Molecular Modelling | (C) |
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| Previous EPSRC Support |
| EP/P022596/1 | Support for the UKCP consortium | (P) |
| EP/J010863/2 | TOUCAN: TOwards an Understanding of CAtalysis on Nanoalloys | (P) |
| EP/K013688/1 | Support for the UKCP consortium | (P) |
| EP/J010863/1 | TOUCAN: TOwards an Understanding of CAtalysis on Nanoalloys | (P) |
| EP/J010510/1 | Collaborative Computer Project: NMR Crystallography | (C) |
| EP/I009973/1 | Multiscale Modelling of Metal-Semiconductor Contacts for the Next Generation of Nanoscale Transistors | (P) |
| EP/H018212/1 | Learning to control structure and properties of nano-scale ferroelectrics using defects | (C) |
| EP/F037163/2 | Support for the UK Car-Parrinello Consortium | (P) |
| EP/G007489/2 | Ex nihilo crystal structure discovery | (P) |
| EP/G007489/1 | Ex nihilo crystal structure discovery | (P) |
| EP/F037163/1 | Support for the UK Car-Parrinello Consortium | (P) |
| EP/C007573/2 | A new solid-state theory for the prediction of Nuclear Magnetic Resonance J-coupling constants | (P) |
| GR/R76059/02 | First principles prediction of experimental observables | (P) |
| EP/C007573/1 | A new solid-state theory for the prediction of Nuclear Magnetic Resonance J-coupling constants | (P) |
| GR/R76059/01 | First principles prediction of experimental observables | (P) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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