The high-pressure response of trans-cinnamic acid crystals studied by Raman spectroscopy

Anna Marinopoulou, Vasiliki Christopoulou, Olga Karabinaki, Dimitris Christofilos, John Arvanitidis
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Abstract

The pressure response of crystalline trans-cinnamic acid is studied by means of Raman spectroscopy up to 6 GPa. Pressure application causes the reversible shift of all the observed Raman peaks to higher frequencies and changes in their relative intensities, with the intermolecular vibrational modes being by far more sensitive to pressurization compared to the intramolecular ones. The present high-pressure Raman data indicate the structural stability of the trans-cinnamic acid crystal and molecular conformation up to the highest pressure attained in the experiments, the importance of the hydrogen bonding, as well as the considerable strengthening of the intermolecular interactions at elevated pressures.

Abstract Image

利用拉曼光谱研究反式肉桂酸晶体的高压响应
通过拉曼光谱研究了晶体反式肉桂酸在 6 GPa 以下的压力响应。施加压力会导致所有观测到的拉曼峰向更高频率发生可逆移动,并改变其相对强度,与分子内振动模式相比,分子间振动模式对加压更为敏感。目前的高压拉曼数据表明,反式肉桂酸晶体和分子构象在实验中达到的最高压力下具有结构稳定性,氢键非常重要,而且分子间的相互作用在高压下得到了显著加强。本文受版权保护。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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