Centre of Magnetic Resonance (CMR) Research
The Centre of Magnetic Resonance joins research groups from the three Grade 5 schools of Physics, Chemistry and Biology in St Andrews and research groups in Dundee, all working in the fields of liquid- or solid-state Nuclear Magnetic Resonance (NMR), Dynamic Nuclear Polarization (DNP), Electron Paramagnetic Resonance (EPR), Muon Spin Rotation (mSR), or Computational Magnetic Resonance. The aim of the CMR is to provide a platform for an exchange of ideas, to stimulate discussion, and to strengthen cooperations, research, and grant applications.
For more information please visit the Centre of Magnetic Resonance (CMR) home page.
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Correction : Assessing dimerisation degree and cooperativity in a biomimetic small-molecule model by pulsed EPR (2015-10-28) - Journal itemCorrection for ‘Assessing dimerisation degree and cooperativity in a biomimetic small-molecule model by pulsed EPR’ by K. Ackermann et al., Chem. Commun., 2015, 51, 5257–5260.
Monitoring complex formation by relaxation-induced pulse electron paramagnetic resonance distance measurements (2017-09-06) - Journal articleBiomolecular complexes are often multimers fueling the demand for methods that allow unraveling their composition and geometric arrangement. Pulse electron paramagnetic resonance (EPR) spectroscopy is increasingly applied ...
Synthesis, isotopic enrichment and solid-state NMR characterization of zeolites derived from the assembly, disassembly, organisation, reassembly process (2017-04-12) - Journal articleThe great utility and importance of zeolites in fields as diverse as industrial catalysis and medicine has driven considerable interest in the ability to target new framework types with novel properties and applications. ...
Diphosphane 2,2′-binaphtho[1,8-de][1,3,2]dithiaphosphinine and the easy formation of a stable phosphorus radical cation (2016-04-21) - Journal articleA convenient synthesis route to 2,2’-binaphtho[1,8-de][1,3,2]di-thiaphosphinine (3) was found. Its stable radical cation 3•+ was accessed easily through one-electron oxidation with NOBF4.
Synthesis and properties of the heterospin (S1 = S2 = 1/2) radical-ion salt bis(mesitylene)molybdenum(I) [1,2,5]thiadiazolo[3,4-c][1,2,5]thiadiazolidyl (2015-07-20) - Journal articleLow-temperature interaction of [1,2,5]thiadiazolo[3,4-c][1,2,5]thiadiazole (1) with MoMes2 (Mes = mesitylene / 1,3,5-trimethylbenzene) in tetrahydrofuran gave the heterospin (S1 = S2 = 1/2) radical-ion salt [MoMes2]+– ...