Effects of hydrostatic pressure on amorphous chiral materials: Impact on homochiral or heterochiral H-bond sequences

High pressure effects on static dielectric permittivity of homochiral and heterochiral N-acetyl-α-methyl-benzylamine (Nac-MBA) were investigated. For homochiral composition, the static permittivity increases of 178% with pressure at T = 388 K. Interestingly, as pressure continued increasing, εS dras...

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Bibliographic Details
Published in:Journal of non-crystalline solids 2024-09, Vol.640, p.123111, Article 123111
Main Authors: Atawa, Bienvenu, Couvrat, Nicolas, Affouard, Frédéric, Correia, Natália T., Coquerel, Gérard, Saiter-Fourcin, Allisson
Format: Article
Language:English
Subjects:
BDS
Chirality
Crystallization
Physics
Pressure
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Summary:High pressure effects on static dielectric permittivity of homochiral and heterochiral N-acetyl-α-methyl-benzylamine (Nac-MBA) were investigated. For homochiral composition, the static permittivity increases of 178% with pressure at T = 388 K. Interestingly, as pressure continued increasing, εS drastically collapsed to reach ε∞=3±0.3. In the case of heterochiral composition, the static permittivity increases with pressure (in the same magnitude order as the pure enantiomer), and reaches a constant value depending on the isothermal temperature. Thus, the size of the H-bond aggregates is highly pressure sensitive, increasing up to a level that crystallization becomes unavoidable. For heterochiral composition, this process may be kinetically time consuming since the initial heterochiral H-bond aggregates need to be surrounded by their suitable neighbors in order to fulfilled the crystalline packing. The initial H-bond sequences are the precursors of the future crystalline arrangement under pressure application.
ISSN:0022-3093
1873-4812
DOI:10.1016/j.jnoncrysol.2024.123111