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Abstract
Solid-state NMR and atomistic molecular dynamics (MD) simulations are used to understand the disorder of guest solvent molecules in two cocrystal solvates of the pharmaceutical furosemide. Traditional approaches to interpreting the NMR data fail to provide a coherent model of molecular behaviour and indeed give misleading kinetic data. In contrast, direct prediction of the NMR properties from MD simulation trajectories allows the NMR data to be correctly interpreted in terms of combined jump-type and libration-type motions. Time-independent component analysis of the MD trajectories provides additional insight, particularly for motions that are invisible to NMR. This allows a coherent picture of the dynamics of molecules restricted in molecular-sized cavities to be determined.
Supplementary materials
Title
Unravelling guest dynamics in crystalline molecular organics using solid-state NMR and molecular dynamics simulation: Supplementary Information
Description
PDF containing information on: synthesis (Section 1) and crystallography (Section 2) of the FSPA solvates; 13C NMR (Section 3); explanation and justification of parameters used to fit 2H relaxation data (Section 4); Details of 2H NMR, naïve modelling and details of direct prediction (Section 5); addi-tional analysis of MD results, including analysis of the sulfon-amide behavior (Section 6); further details of the Markov State Modelling (Section 7).
Actions
Title
Data archive
Description
Data archive containing raw NMR data, XRD files and (partial) MD data/analysis.
Actions
