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What Rules the Relative Stability of α-, β-, and γ-Glycine Polymorphs?

Neubi Francisco Xavier, Antônio M. Da Silva, Glauco F. Bauerfeldt

2020Crystal Growth & Design21 citationsDOI

Abstract

Theoretical calculations based on the density functional theory, using the PBE functional with the D3 dispersion correction under periodic boundary conditions, have been employed aiming to investigate the properties of α-, β-, and γ-glycine. Structural parameters have been predicted with a maximum error of 1.42% for lattice parameters and 2.53% for the unit-cell volume, for the α phase. Band structure calculations suggest the band gap values of 4.80, 5.01, and 5.23 eV for the α, β, and γ phases, respectively. Quasi-harmonic calculations have been performed and the Gibbs free energy function has been calculated in a wide range of temperature and pressures, suggesting the stability ordering γ > α > β, at room temperature, and the γ to α-glycine phase transition temperature of 442.55 K, at 1 bar, in agreement with the experimental findings. Moreover, a deviation from the experimental value of only 0.44 J mol–1 K–1 is observed for the predicted S(α→γ) at 298.15 K. Finally, calculated sublimation enthalpies of 140.58, 138.09, and 141.70 kJ mol–1 (α, β, and γ-glycine, respectively), at 298.15 K and 1 bar, have also shown good agreement with the experimental values.

Topics & Concepts

ChemistryThermodynamicsPhase boundaryGibbs free energyLattice energySublimation (psychology)Density functional theoryLattice (music)Atmospheric temperature rangePeriodic boundary conditionsCrystallographyCrystal structurePhase (matter)Computational chemistryBoundary value problemPhysicsOrganic chemistryAcousticsQuantum mechanicsPsychotherapistPsychologyCrystallography and molecular interactionsCrystallization and Solubility StudiesChemical Thermodynamics and Molecular Structure
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