Raman Study of Layered Breathing Kagome Lattice Semiconductor Nb3Cl8

IF 4.5 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY 2D Materials Pub Date : 2023-09-25 DOI:10.1088/2053-1583/acfa10
Dylan A. Jeff, Favian Gonzalez, Kamal Harrison, Yuzhou Zhao, Tharindu Fernando, Sabin Regmi, Zhaoyu Liu, Humberto Rodriguez Gutierrez, Madhab Neupane, Jihui Yang, Jiun-Haw Chu, Xiaodong Xu, Ting Cao, Saiful Khondaker
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Abstract

Abstract Niobium chloride (Nb 3 Cl 8 ) is a layered two-dimensional semiconducting material with many exotic properties including a breathing kagome lattice, a topological flat band in its band structure, and a crystal structure that undergoes a structural and magnetic phase transition at temperatures below 90 K. Despite being a remarkable material with fascinating new physics, the understanding of its phonon properties is at its infancy. In this study, we investigate the phonon dynamics of Nb 3 Cl 8 in bulk and few layer flakes using polarized Raman spectroscopy and density-functional theory (DFT) analysis to determine the material’s vibrational modes, as well as their symmetrical representations and atomic displacements. We experimentally resolved 12 phonon modes, five of which are A 1 g modes while the remaining seven are E g modes, which is in strong agreement with our DFT calculation. Layer-dependent results suggest that the Raman peak positions are mostly insensitive to changes in layer thickness, while peak intensity and full width at half maximum are affected. Raman measurements as a function of excitation wavelength (473–785 nm) show a significant increase of the peak intensities when using a 473 nm excitation source, suggesting a near resonant condition. Temperature-dependent Raman experiments carried out above and below the transition temperature did not show any change in the symmetries of the phonon modes, suggesting that the structural phase transition is likely from the high temperature P 3 m ˉ 1 phase to the low-temperature R 3 m ˉ phase. Magneto-Raman measurements carried out at 140 and 2 K between −2 and 2 T show that the Raman modes are not magnetically coupled. Overall, our study presented here significantly advances the fundamental understanding of layered Nb 3 Cl 8 material which can be further exploited for future applications.
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层状呼吸Kagome点阵半导体Nb3Cl8的拉曼研究
氯化铌(Nb 3cl 8)是一种层状二维半导体材料,具有许多奇异的性质,包括呼吸kagome晶格,其能带结构中的拓扑平坦带,以及在低于90k的温度下经历结构和磁相变的晶体结构。尽管它是一种具有迷人新物理特性的非凡材料,但对其声子特性的理解仍处于起步阶段。在这项研究中,我们利用偏振拉曼光谱和密度泛函理论(DFT)分析研究了Nb 3cl 8在块状和少数层片状中的声子动力学,以确定材料的振动模式,以及它们的对称表示和原子位移。我们通过实验解析了12种声子模式,其中5种是a1 g模式,其余7种是eg模式,这与我们的DFT计算结果非常吻合。层相关的结果表明,拉曼峰位置对层厚度的变化不敏感,而峰强度和半最大值时的全宽度受到影响。当激发波长为473 ~ 785 nm时,拉曼光谱的峰值强度随激发波长的变化而显著增加,表明喇曼光谱处于近共振状态。在高于和低于转变温度的温度相关的拉曼实验中,声子模式的对称性没有任何变化,这表明结构相变可能是从高温的p3m - 1相到低温的r3m - 1相。在- 2和2t之间的140和2k进行的磁拉曼测量表明,拉曼模式不是磁耦合的。总的来说,我们在这里提出的研究显着推进了对层状n3cl8材料的基本理解,可以进一步开发用于未来的应用。
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来源期刊
2D Materials
2D Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
10.70
自引率
5.50%
发文量
138
审稿时长
1.5 months
期刊介绍: 2D Materials is a multidisciplinary, electronic-only journal devoted to publishing fundamental and applied research of the highest quality and impact covering all aspects of graphene and related two-dimensional materials.
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