Simple Rules for Complex Near-Glass-Transition Phenomena in Medium-Sized Schiff Bases

Overview

Journal Int J Mol Sci

Publisher MDPI

Specialties Biochemistry
Chemistry
Molecular Biology

Date 2022 May 14

PMID 35563574

Authors

Andrzej Nowok

Wioleta Cieslik

Joanna Grelska

Karolina Jurkiewicz

Natalina Makieieva

Teobald Kupka

Jose Aleman

Robert Musiol

Sebastian Pawlus

Affiliations

Soon will be listed here.

Abstract

Glass-forming ability is one of the most desired properties of organic compounds dedicated to optoelectronic applications. Therefore, finding general structure-property relationships and other rules governing vitrification and related near-glass-transition phenomena is a burning issue for numerous compound families, such as Schiff bases. Hence, we employ differential scanning calorimetry, broadband dielectric spectroscopy, X-ray diffraction and quantum density functional theory calculations to investigate near-glass-transition phenomena, as well as ambient- and high-pressure molecular dynamics for two structurally related Schiff bases belonging to the family of glycine imino esters. Firstly, the surprising great stability of the supercooled liquid phase is shown for these compounds, also under high-pressure conditions. Secondly, atypical self-organization via bifurcated hydrogen bonds into lasting centrosymmetric dimers is proven. Finally, by comparing the obtained results with the previous report, some general rules that govern ambient- and high-pressure molecular dynamics and near-glass transition phenomena are derived for the family of glycine imino esters. Particularly, we derive a mathematical formula to predict and tune their glass transition temperature () and its pressure coefficient (d/d). We also show that, surprisingly, despite the presence of intra- and intermolecular hydrogen bonds, van der Waals and dipole-dipole interactions are the main forces governing molecular dynamics and dielectric properties of glycine imino esters.

Citing Articles

Molecular Dynamics and Near- Phenomena of Cyclic Thioethers.

Hellwig H, Nowok A, Peksa P, Dulski M, Musiol R, Pawlus S Int J Mol Sci. 2023; 24(24).

PMID: 38138995 PMC: 10742681. DOI: 10.3390/ijms242417166.

Glass Transition and Related Phenomena.

Grzybowski A Int J Mol Sci. 2023; 24(10).

PMID: 37240021 PMC: 10218009. DOI: 10.3390/ijms24108685.

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