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| Name: |
Professor SEM Ashbrook |
| Organisation: |
University of St Andrews |
| Department: |
Chemistry |
| Current EPSRC-Supported Research
Topics: |
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Analytical Science
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Catalysis & Applied Catalysis
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Chemical Biology
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Chemical Structure
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Condensed Matter Physics
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Instrumentation Eng. & Dev.
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Materials Characterisation
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Materials Synthesis & Growth
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Particle Technology
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| Current EPSRC Support |
| EP/Z532812/1 | Pushing the Limits of High-Field Solid-State NMR Technology: Enhancing Applications to Advanced Materials, the Life Sciences and Pharmaceuticals | (P) |
| EP/Z531200/1 | Pushing the Limits of High-Field Solid-State NMR Technology: Enhancing Applications to Advanced Materials, the Life Sciences and Pharmaceuticals | (C) |
| EP/X019853/1 | NMR at 1.2 GHz: A World-Leading UK Facility to Deliver Advances in Biology, Chemistry, and Materials Science | (P) |
| EP/W034824/1 | ZeoMOFs | (C) |
| EP/V038052/1 | Decarbonising The Acrylic Value Chain Via Resource Circularity | (C) |
| EP/T026642/1 | Collaborative Computational Project in NMR Crystallography | (C) |
| EP/T014350/1 | The UK High-Field Solid-State NMR National Research Facility | (P) |
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| Previous EPSRC Support |
| EP/S016201/1 | Designed Synthesis of Zeolites for Environmental and Biorenewables Catalysis | (C) |
| EP/R030065/1 | A National Network for Applications of High-Field NMR in the Life and Physical Sciences | (C) |
| EP/M022501/1 | Collaborative Computational Project in NMR Crystallography | (C) |
| EP/K039210/1 | Structuring the Future - Underpinning world-leading science in EaStCHEM through cutting edge characterisation | (C) |
| EP/J010510/1 | Collaborative Computer Project: NMR Crystallography | (C) |
| EP/F018096/1 | Solid-State NMR at 850 MHz: A World-leading UK Facility to deliver Advances in Materials Science, Chemistry, Biology, Earth Science and Physics | (P) |
| EP/E041825/1 | High-Resolution Solid-State NMR in St Andrews: Development and Applications | (P) |
| EP/D080576/1 | Novel half-integer quadrupolar solid-state NMR correlation experiments for probing atomic proximities and connectivities in disordered materials | (P) |
| GR/T23824/01 | Satellite-Transition MAS: A New Technique for High-Resolution Quadrupolar NMR | (R) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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