范德华多铁质CuCrP2S6相变和铁耦合的拉曼指纹图谱

IF 4.6 2区化学 Q2 CHEMISTRY, PHYSICAL

The Journal of Physical Chemistry Letters Pub Date : 2025-04-23 DOI:10.1021/acs.jpclett.5c00554

Jing Tang, Benjamin J. Lawrie, Mouyang Cheng, Yueh-Chun Wu, Huan Zhao, Dejia Kong, Ruiqi Lu, Ching-Hsiang Yao, Zheng Gai, An-Ping Li, Mingda Li, Xi Ling

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引用次数: 0

摘要

CuCrP2S6（CCPS）是一种 II 型多铁性材料，表现出涉及铁电、反铁电和反铁磁有序的独特相变。在本研究中，我们通过低至 5 cm-1 的拉曼光谱测量，在 4 至 345 K 的宽温度范围内对 CCPS 中错综复杂的相变及其多铁氧体耦合进行了全面研究。在理论计算和角度分辨偏振拉曼测量的支持下，我们首先确定了观察到的拉曼模式。通过分析随温度变化的拉曼光谱参数，我们进一步发现了清晰的相变特征。特别是在 145 K 以下的 36.1 cm-1 和 70.5 cm-1 处观察到两个低频软模式，表明了反铁电向准反铁电的转变。此外，当温度从 4 K 升高到 65 K 时，还观察到声子模式硬化，这表明在 65 K 以下存在负热膨胀（NTE）和强磁弹性耦合。这些发现推进了对 vdW 多铁性 CCPS 的理解，为自旋电子学和量子器件等尖端技术中多铁性的未来设计和工程铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Raman Fingerprints of Phase Transitions and Ferroic Couplings in van der Waals Multiferroic CuCrP2S6

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Raman Fingerprints of Phase Transitions and Ferroic Couplings in van der Waals Multiferroic CuCrP2S6

CuCrP₂S₆ (CCPS), a type-II multiferroic material, exhibits unique phase transitions involving ferroelectric, antiferroelectric, and antiferromagnetic ordering. In this study, we conduct a comprehensive investigation on the intricate phase transitions and their multiferroic couplings in CCPS across a wide temperature range from 4 to 345 K through Raman spectroscopic measurements down to 5 cm^–1. We first assign the observed Raman modes with the support of theoretical calculations and angle-resolved polarized Raman measurements. We further present clear signatures of phase transitions from the analyses of temperature-dependent Raman spectral parameters. Particularly, two low-frequency soft modes are observed at 36.1 cm^–1 and 70.5 cm^–1 below 145 K, indicating the antiferroelectric to quasi-antiferroelectric transition. Moreover, phonon mode hardening is observed when the temperature increases from 4 to 65 K, suggesting negative thermal expansion (NTE) and strong magnetoelastic coupling below 65 K. These findings advance the understanding of vdW multiferroic CCPS, paving the way for future design and engineering of multiferroicity in cutting-edge technologies, such as spintronics and quantum devices.

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来源期刊

The Journal of Physical Chemistry Letters CHEMISTRY, PHYSICAL-NANOSCIENCE & NANOTECHNOLOGY

CiteScore

9.60

自引率

7.00%

发文量

1519

审稿时长

1.6 months

期刊介绍： The Journal of Physical Chemistry (JPC) Letters is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, chemical physicists, physicists, material scientists, and engineers. An important criterion for acceptance is that the paper reports a significant scientific advance and/or physical insight such that rapid publication is essential. Two issues of JPC Letters are published each month.