Project no. |
Applicant |
Title |
1405011 |
Oleg Antzutkin, Department of Physics, University of Warwick |
A complex of Alzheimer’s Aβ(1-42)CC toxic oligomers with Curcumin: Structural insights using 2D 13C-13C and 1H detected 2D/3D 13C-1H and 15N-1H fast-MAS NMR |
1405012 |
Sharon Ashbrook, School of Chemistry, University of St Andrews |
25Mg MQMAS to Investigate the Efficiency of FAM-N pulses under challenging conditions |
1405013 |
Sharon Ashbrook, School of Chemistry, University of St Andrews |
High-Resolution 31P and 71Ga NMR Study of Gallophosphates |
1405014 |
Emma Barney, Faculty of Engineering, University of Nottingham |
Quantifying aluminium clustering in aluminium tellurite glass. |
1405015 |
Frédéric Blanc, Department of Chemistry, University of Liverpool |
Observation of invisible 71Ga site in langasite by 17O observed 17O 71Ga TRAPDOR |
1405017 |
Steven Brown, Department of Physics, University of Warwick |
Characterising intermolecular interactions in supramolecular self assembly and pharmaceuticals by 14N-1H MAS NMR |
1405020 |
Marina Carravetta, School of Chemistry, University of Southampton |
Development and Application of nitrogen-14 overtone NMR spectroscopy to biological solids under ultra-fast MAS |
1405021 |
Marina Carravetta, School of Chemistry, University of Southampton |
14N Overtone transition in solid-state NMR double rotation technique |
1405019 |
Paul Dupree, Department of Biochemistry, University of Cambridge |
2D and 3D 13C NMR studies of whole plant stems |
1405022 |
Peter Halling, Department of Pure and Applied Chemistry, University of Strathclyde |
A Solid-State NMR Study of an Immobilised Enzyme |
1405023 |
John Hanna, Department of Physics, University of Warwick |
45Sc-31P MQHETCOR and HMQC MAS NMR Investigations on Gallium-Doped Perovskites |
1405024 |
John Hanna, Department of Physics, University of Warwick |
11B MQDOR Experiments for Removing Residual Dipolar Broadening |
1405026 |
Kenneth Harris, School of Chemistry, Cardiff University |
CLASSIC NMR Studies of the Kinetics of Crystallization Processes |
1405027 |
Kenneth Harris, School of Chemistry, Cardiff University |
CLASSIC NMR Applied to the Formation of Novel Cements |
1405028 |
Józef Lewandowski, Department of Chemistry, University of Warwick |
Solid state NMR on 312 kDa complex of full length human immunoglobulin and GB1 (continuation project) |
1405030 |
David Middleton, Chemistry, Lancaster University |
A high-field 13C DARR solid-state NMR investigation of heparin interactions with the E22Q mutant of the amyloid-beta peptide associated with early onset Alzheimer’s |
1405032 |
Russell Morris, School of Chemistry, University of St Andrews |
High-Field Solid-State 17O NMR Study of Layered Silicates |
1405033 |
Mark Pfuhl, Randall Division of Cell & Molecular Biophysics, King's Colledge London |
Solid state NMR investigation of proteins bound to F-actin |
1405036 |
Mark Smith, Vice-Chancellor's Office and Chemistry, University of Lancaster |
Ultra-high field 43Ca and 1H NMR studies of calcium oxalates |
1405037 |
Mark Smith, Vice-Chancellor's Office and Chemistry, University of Lancaster |
Improving the resolution of ultra-high magnetic field 25Mg solid state NMR studies of magnesium acetates by extension to multiple quantum MAS NMR |
1405038 |
Jeremy Titman, School of Chemistry, University of Nottingham |
Measuring Proton CSAs in Nitrogen-containing Hydrogen-bonded Systems |
1405039 |
Richard Walton, Department of Chemistry, University of Warwick |
High-Field Solid-State 93Nb and 39K Study of Mixed-Metal Polyoxometalates |
1405040 |
Philip Williamson, Centre for Biological Sciences, University of Southampton |
Indirect Detection of 14N in Biological Samples Under Ultrafast MAS |
1405041 |
Stephen Wimperis, School of Chemistry and WestCHEM, University of Glasgow |
Natural Abundance 33S (I = 3/2) CP-STMAS NMR: Sensitivity Enhancement and Spectral Editing |
1405042 |
Derek Woollins, School of Chemistry, University of St Andrews |
Using 77Se Solid-State NMR and J Coupling to Study Novel Organoselenium Compounds |