Mechanochromic hydrogen-bonded cocrystals with a salient effect upon heating†

IF 6 2区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY Materials Chemistry Frontiers Pub Date : 2024-08-15 DOI:10.1039/D4QM00421C

Armando Navarro-Huerta, Antonio Juárez-Calixto, María Eugenia Sandoval-Salinas, Yoarhy A. Amador-Sánchez, Joelis Rodríguez-Hernández, Alejandra Núñez-Pineda, Mario Rodríguez, Rachel Crespo-Otero and Braulio Rodríguez-Molina

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Abstract

Herein, we report the characterization of two hydrogen-bonded cocrystals, termed AC-TFTA and AC-PFBA, with mechanofluorochromism upon grinding. The heating of single crystals of AC-TFTA promotes microscopic displacements due to a decarboxylation process, which was studied through calorimetry-based techniques, gas chromatography/mass spectrometry, and hot-stage microscopy. Using solid-state nuclear magnetic resonance (ssNMR), powder X-ray diffraction (PXRD), and UV-Vis/fluorescence spectroscopy, we demonstrated that AC-TFTA displays sharper photophysical changes than its analog AC-PFBA, attributable to differences in the energies of their non-covalent interactions. Furthermore, the reversibility of the amorphous phase in both cocrystals was explored. However, fatigue tests led us to conclude that AC-TFTA displays potential for application as an anticounterfeiting agent, in contrast with the more robust crystalline AC-PFBA. This work emphasizes the importance of cocrystallization in generating accessible and functional mechanofluorochromic materials.

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加热时具有显著效果的机械变色氢键共晶体

在此，我们报告了两种氢键共晶体（分别称为 AC-TFTA 和 AC-PFBA）的特性，这两种晶体在研磨后具有机械荧光。对 AC-TFTA 单晶体的加热促进了脱羧过程引起的微观位移，我们通过基于量热计的技术、气相色谱/质谱法和热级显微镜对这一过程进行了研究。利用固态核磁共振（ssNMR）、粉末 X 射线衍射（PXRD）和紫外可见光/荧光光谱，我们证明了 AC-TFTA 比其类似物 AC-PFBA 显示出更敏锐的光物理变化，这归因于它们非共价相互作用能量的差异。此外，我们还探讨了这两种共晶体中无定形相的可逆性。不过，疲劳测试使我们得出结论，AC-TFTA 具有作为防伪剂应用的潜力，而 AC-PFBA 晶体则更为坚固。这项工作强调了共晶体化在生成可获得的功能性机械氟变色材料中的重要性。

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来源期刊

Materials Chemistry Frontiers Materials Science-Materials Chemistry

CiteScore

12.00

自引率

2.90%

发文量

313

期刊介绍： Materials Chemistry Frontiers focuses on the synthesis and chemistry of exciting new materials, and the development of improved fabrication techniques. Characterisation and fundamental studies that are of broad appeal are also welcome. This is the ideal home for studies of a significant nature that further the development of organic, inorganic, composite and nano-materials.

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