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Researcher Details
 
Name: Professor SP Brown
Organisation: University of Warwick
Department: Physics
Current EPSRC-Supported Research Topics:
Analytical Science Catalysis & Applied Catalysis
Chemical Structure Instrumentation Eng. & Dev.
Materials Characterisation Particle Technology

Current EPSRC Support
EP/Z531200/1 Pushing the Limits of High-Field Solid-State NMR Technology: Enhancing Applications to Advanced Materials, the Life Sciences and Pharmaceuticals(P)
EP/X019640/1 NMR at 1.2 GHz: A World-Leading UK Facility to Deliver Advances in Biology, Chemistry, and Materials Science(P)
EP/V007688/1 EPRSC Resource Only Strategic Equipment: the Warwick Analytical Science Centre(P)
EP/T015063/1 The UK High-Field Solid-State NMR National Research Facility(P)
Previous EPSRC Support
EP/X03481X/1 The UK High-Field Solid-State NMR National Research Facility: EPSRC Core Equipment Award 2022(P)
EP/V03622X/1 The UK High-Field Solid-State NMR National Research Facility: EPSRC Capital Award for Core Equipment 2020/21(P)
EP/R029946/1 Solid-State NMR at 1.0 GHz: A World-Leading UK Facility to Deliver Advances in Chemistry, Biology and Materials Science(P)
EP/M022501/1 Collaborative Computational Project in NMR Crystallography(C)
NS/A000061/1 The UK 850 MHz Solid-State NMR Facility (P)
EP/L015307/1 EPSRC Centre for Doctoral Training in Molecular Analytical Science(C)
EP/K003674/1 Switchable & Biomimetic Self-Assembly of Guanosines: Characterising the Interplay of Structure-Directing Non-Covalent Interactions by Solid-State NMR(P)
EP/J010510/1 Collaborative Computer Project: NMR Crystallography(C)
EP/H023321/1 New paradigms for NMR of organic solids(P)
EP/F017901/1 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/D080355/1 Novel half-integer quadrupolar solid-state NMR correlation experiments for probing atomic proximities and connectivities in disordered materials(P)
EP/C007573/2 A new solid-state theory for the prediction of Nuclear Magnetic Resonance J-coupling constants(C)
EP/C007573/1 A new solid-state theory for the prediction of Nuclear Magnetic Resonance J-coupling constants(C)
EP/D051908/1 Renewing the Warwick 600 MHz Solid-State NMR System: Enabling State of the Art Technique Development and Novel Structural Applications(P)
GR/S47403/01 A New Probe of Fundamental Weak Hydrogen Bonds: Solid-State NMR(P)
GR/S56993/01 Testing the limits of resolution in solid-state NMR(C)
GR/R75441/01 Novel Very High Resolution 1H NMR as a Probe of Fundamental Non-Bonding Interactions in Solids(P)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator