From brittle to elastic: substituent effects on mechanical flexibility in aromatic amide crystals

TitleFrom brittle to elastic: substituent effects on mechanical flexibility in aromatic amide crystals
Publication TypeJournal Article
Year of Publication2026
AuthorsBhowmik, A, Das, N, Saxena, AKumar, Mishra, K, Barsu, N, Mishra, MKumar
JournalChemistry-An Asian Journal
Volume21
Issue10
Paginatione70795
Date PublishedMAY
Type of ArticleArticle
ISSN1861-4728
Keywordscrystal engineering, Elasticity, Mechanical property, nanoindentation, responsive crystals
Abstract

Mechanical flexibility in molecular crystalline materials represents a compelling paradigm shift from the long-held perception of crystals as inherently brittle solids. Herein, we demonstrate a brittle-to-elastic transition by subtle molecular modification in a pair of structurally analogous aromatic amides; N-[(4-methoxyphenyl)methyl]formamide (N4MFA, Crystal 1) and N-benzylformamide (NBFA, Crystal 2). Despite their close structural similarity, Crystal 1 exhibits brittle fracture under minimal stress, whereas Crystal 2 shows 1D elastic flexibility with reversible bending. Structural, computational, and mechanical analyses reveal that this contrast arises from substituent-controlled supramolecular packing. In Crystal 1, the methoxy (-OCH3) group promotes dense, anisotropic packing, leading to rigidity and fracture under stress. Removing the substituent in Crystal 2 enhances isotropy, pi-pi stacking, and interlocked packing, enabling reversible strain during elastic bending. Nanoindentation, energy framework, and elastic tensor analyses confirm this transition: Crystal 2 shows near-isotropic stiffness (E max/E min = 1.65) and interconnected energy networks, whereas Crystal 1 exhibits pronounced anisotropy (E max/E min = 3.95) and 1D cohesion. Hirshfeld surface analysis supports more balanced contacts in the elastic crystal. This work establishes a direct structure-mechanical correlation, showing that minor chemical modifications can tune flexibility and provide insights to guide the development of adaptive crystalline materials.

DOI10.1002/asia.70795
Type of Journal (Indian or Foreign)

Foreign

Impact Factor (IF)

3.2

Divison category: 
Organic Chemistry
Physical and Materials Chemistry
Database: 
Web of Science (WoS)

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