Topological transformation from non-van der Waals solids to 2D transition metal chalcogenides in molten salts with solvated metals

Research Square (Research Square) Pub Date : 2023-11-14 DOI:10.21203/rs.3.rs-3461588/v1

Mian Li, Lin Gao, Kun Liang, Qing Huang

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Abstract

Abstract Transition metal chalcogenides (TMCs) have attracted great attention due to their wide range of applications. The TMCs have been widely synthesized using techniques such as exfoliation and vapor-phase growth, while their structure and constituent tuning remains a challenge. Here, we show a general route to synthesize 2D TMCs by topological transformation of AMX 2 -type ternary metal chalcogenides in molten salts with solvated metals. In this process, the solvated metals in the molten salts play a role of etchant that can remove the A-layer atoms from the AMX 2 structure, resulting in the formation of laminated MX 2 layers. The laminated MX 2 layers provide natural template for cations intercalation or atom substitution to form 2D TMCs with various structures. In the present work, 2D TMCs with tunable stoichiometries (e.g. Cr 2 S 3 , Cr 3 S 4 , Cr 5 S 6 , and Cr 7 S 8 ), as well as 2D TMCs with heterostructures (e.g. Cr 2 S 3 -Ti 0.5 CrS 2 , Cr 2 S 3 -NbS 2 , and Cr 2 S 3 -HfS 2 ) were obtained. We further explored the potential of this route to tail the dielectric properties and improve the electromagnetic wave absorption ability of the chromium sulfides. This approach shows advantage in exploring 2D structures with unprecedented constituent and we believe it will open up opportunities for tuning the properties and broaden the functional applications of TMCs.

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溶化金属熔盐中非范德华固体到二维过渡金属硫族化合物的拓扑转变

过渡金属硫族化合物(TMCs)因其广泛的应用而备受关注。tmc的合成已广泛采用剥离和气相生长等技术，但其结构和成分的调整仍然是一个挑战。在这里，我们展示了一种通过amx2型三元金属硫族化合物在熔融盐中与溶剂化金属进行拓扑转化合成二维tmc的一般途径。在此过程中，熔融盐中的溶剂化金属起到蚀刻剂的作用，可以将a层原子从amx2结构中去除，从而形成层状的MX 2层。层合的MX - 2层为阳离子嵌入或原子取代提供了天然模板，形成具有不同结构的二维tmc。在目前的工作中，获得了具有可调化学计量的二维tmc(例如cr2s3, cr3s4, cr5s6和cr7s8)，以及具有异质结构的二维tmc(例如cr2s3 -Ti 0.5 crs2, cr2s3 -NbS 2和cr2s3 -HfS 2)。我们进一步探索了该方法在跟踪硫化铬的介电性能和提高其电磁波吸收能力方面的潜力。这种方法在探索具有前所未有成分的二维结构方面显示出优势，我们相信它将为调整tmc的性质和扩大其功能应用开辟机会。

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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Research Square (Research Square)

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