Structure–property relationship of a complex photoluminescent arylacetylide-gold(I) compound. I: a pressure-induced phase transformation caught in the act

IF 2.9 2区材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY

IUCrJ Pub Date : 2024-09-01 DOI:10.1107/S2052252524007681

Róża Jastrzębska , Tomasz Poręba , Federico Cova , Daniel M. Tchoń , Anna Makal

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引用次数: 0

Abstract

A pressure-induced triclinic-to-monoclinic phase transition has been caught ‘in the act’ in the course of a wider series of high-pressure synchrotron diffraction experiments conducted on a moderately photoluminescent gold(I) compound. Our experiments illustrate how conducting a fast series of experiments, enabled by modern equipment at synchrotrons, can lead to an inaccurate estimation of the actual pressure of a phase transformation.

A pressure-induced triclinic-to-monoclinic phase transition has been caught ‘in the act’ over a wider series of high-pressure synchrotron diffraction experiments conducted on a large, photoluminescent organo-gold(I) compound. Here, we describe the mechanism of this single-crystal-to-single-crystal phase transition, the onset of which occurs at ∼0.6 GPa, and we report a high-quality structure of the new monoclinic phase, refined using aspherical atomic scattering factors. Our case illustrates how conducting a fast series of diffraction experiments, enabled by modern equipment at synchrotron facilities, can lead to overestimation of the actual pressure of a phase transition due to slow transformation kinetics.

查看原文本刊更多论文

一种复杂的光致发光芳基乙酰金（I）化合物的结构-性质关系。I：压力诱导的相变过程。

在对一种大型光致发光有机金（I）化合物进行的一系列更广泛的高压同步辐射衍射实验中，我们 "当场 "捕捉到了压力诱导的三晶到单晶相变。在这里，我们描述了这种单晶到单晶相变的机理，这种相变发生在 ∼0.6 GPa，我们还报告了利用非球面原子散射因子精制的新单斜相的高质量结构。我们的案例说明了在同步加速器设施的现代设备支持下进行一系列快速衍射实验，会因缓慢的转变动力学而导致高估相变的实际压力。

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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来源期刊

IUCrJ CHEMISTRY, MULTIDISCIPLINARYCRYSTALLOGRAPH-CRYSTALLOGRAPHY

CiteScore

7.50

自引率

5.10%

发文量

审稿时长

10 weeks

期刊介绍： IUCrJ is a new fully open-access peer-reviewed journal from the International Union of Crystallography (IUCr). The journal will publish high-profile articles on all aspects of the sciences and technologies supported by the IUCr via its commissions, including emerging fields where structural results underpin the science reported in the article. Our aim is to make IUCrJ the natural home for high-quality structural science results. Chemists, biologists, physicists and material scientists will be actively encouraged to report their structural studies in IUCrJ.