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arxiv: 1912.03578 · v1 · pith:Z4JRVQA4 · submitted 2019-12-07 · cond-mat.soft · cond-mat.mtrl-sci· cond-mat.stat-mech· physics.chem-ph· physics.med-ph

Effects of Cooling Rate on Structural Relaxation in Amorphous Drugs: Elastically Collective Nonlinear Langevin Equation Theory and Machine Learning Study

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classification cond-mat.soft cond-mat.mtrl-scicond-mat.stat-mechphysics.chem-phphysics.med-ph
keywords amorphousdrugslearningmachinerelaxationstructuralapproachescollective
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Theoretical approaches are formulated to investigate the molecular mobility under various cooling rates of amorphous drugs. We describe the structural relaxation of a tagged molecule as a coupled process of cage-scale dynamics and collective molecular rearrangement beyond the first coordination shell. The coupling between local and non-local dynamics behaves distinctly in different substances. Theoretical calculations for the structural relaxation time, glass transition temperature, and dynamic fragility are carried out over twenty-two amorphous drugs and polymers. Numerical results have a quantitatively good accordance with experimental data and the extracted physical quantities using the Vogel-Fulcher-Tammann fit function and machine learning. The machine learning method reveals the linear relation between the glass transition temperature and the melting point, which is a key factor for pharmaceutical solubility. Our predictive approaches are reliable tools for developing drug formulation.

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