Your search keyword '"Duohai Pan"' showing total 3 results

1. Low-Temperature Phase Transition in Crystalline Aripiprazole Leads to an Eighth Polymorph

Author

Tiffany M. Smith, Sean P. Delaney, Duohai Pan, Timothy M. Korter, and Shawn X. Yin

Subjects

Phase transition, Chemistry, Intermolecular force, Binding energy, General Chemistry, Condensed Matter Physics, London dispersion force, Crystallography, Flufenamic acid, medicine, Molecule, General Materials Science, Density functional theory, Aripiprazole, medicine.drug

Abstract

A new crystalline polymorph (Form VIII) of the antidepressant drug aripiprazole has been discovered, resulting from a previously unknown enantiotropic phase transition from Form II at 225 K. This finding makes aripiprazole one of the most polymorphic flexible organic solids currently known, equaling flufenamic acid in number of solved forms (eight polymorphs). Enantiotropic solid–solid phase transitions are relatively uncommon for pharmaceuticals; however, for the aripiprazole system, such phase transitions play a central role in several of its polymorphic transformations. A combination of solid-state density functional theory and single-crystal X-ray diffraction has been used to investigate the energies involved in the formation of Form VIII. This work reveals that Form VIII is stable despite containing molecules with unfavorable conformations. The stability of this polymorph originates from improved intermolecular binding energy due to enhanced London dispersion forces at low temperatures.

Published

2014

2. Evaluating the Roles of Conformational Strain and Cohesive Binding in Crystalline Polymorphs of Aripiprazole

Author

Sean P. Delaney, Timothy M. Korter, Tiffany M. Smith, Duohai Pan, and Shawn X. Yin

Subjects

Materials science, Strain (chemistry), Terahertz radiation, Binding energy, General Chemistry, Crystal structure, Condensed Matter Physics, Spectral line, Combined approach, Terahertz spectroscopy and technology, Crystallography, Chemical physics, General Materials Science, Density functional theory

Abstract

The relative stabilities of crystalline polymorphs are an important aspect of the manufacturing and effective utilization of pharmaceuticals. These stabilities are driven by both molecular conformational energy within the solid-state components and cohesive binding energy of the crystalline arrangement. The combined approach of experimental vibrational terahertz spectroscopy with solid-state density functional theory provides a powerful tool to study such properties and is applied here in the analysis of conformational polymorphism in crystalline aripiprazole. The low-frequency (

Published

2013

3. Understanding the Origins of Conformational Disorder in the Crystalline Polymorphs of Irbesartan

Author

Timothy M. Korter, Duohai Pan, Sean P. Delaney, Michael Galella, and Shawn X. Yin

Subjects

Chemistry, General Chemistry, Crystal structure, Condensed Matter Physics, Tautomer, Terahertz spectroscopy and technology, Crystallography, Irbesartan, Polymorphism (materials science), medicine, Molecule, General Materials Science, Density functional theory, medicine.drug, Antihypertensive medication

Abstract

The characterization of crystalline polymorphs of drug molecules is an area of great interest since these variations in solid-state structure directly influence the physical properties of such substances. Terahertz spectroscopy provides a powerful analytical tool for these investigations and has been used here to study tautomeric polymorphism and conformational disorder in crystallized irbesartan, an antihypertensive medication. The low-frequency (

Published

2012