Recent developments in synthesis, properties, and applications of 2D Janus MoSSe and MoSexS(1-x) alloys

Seetha Lakshmy , Brinti Mondal , Nandakumar Kalarikkal , Chandra Sekhar Rout , Brahmananda Chakraborty
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Abstract

The Janus MoSSe and alloy MoSxSe(1-x), belonging to the family of two-dimensional (2D) transition metal dichalcogenides (TMDs), have gained significant attention for their potential applications in nanotechnology. The unique asymmetric structure of Janus MoSSe provides intriguing possibilities for tailored applications. The alloy MoSxSe(1-x) offers a tunable composition, allowing for the fine-tuning of the properties to meet specific requirements. These materials exhibit remarkable mechanical, electrical, and optical properties, including a tunable band gap, high absorption coefficient, and photoconductivity. The vibrational and magnetic properties also make it a promising candidate for nanoscale sensing and magnetic storage applications. Properties of these materials can be precisely controlled through different approaches such as size-dependent properties, phase engineering, doping, alloying, defect and vacancy engineering, intercalation, morphology, and heterojunction or hybridisation. Various synthesis methods for 2D Janus MoSSe and alloy MoSxSe(1-x) are discussed, including hydro/solvothermal, chemical vapour transport, chemical vapour deposition, physical vapour depositio, and other approaches. The review also presents the latest advancements in Janus and alloy MoSSe-based applications, such as chemical and gas sensors, surface-enhanced Raman spectroscopy, field emission, and energy storage. Moreover, the review highlights the challenges and future directions in the research of these materials, including the need for improved synthesis methods, understanding of their stability, and exploration of new applications. Despite the early stages of research, both the MoSSe-based materials have shown significant potential in various fields, and this review provides valuable insights for researchers and engineers interested in exploring its potential.

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二维 Janus MoSSe 和 MoSexS(1-x)合金的合成、特性和应用的最新进展
Janus MoSSe 和合金 MoSxSe(1-x) 属于二维(2D)过渡金属二卤化物(TMDs)家族,因其在纳米技术中的潜在应用而备受关注。Janus MoSSe 独特的不对称结构为量身定制的应用提供了引人入胜的可能性。合金 MoSxSe(1-x) 具有可调成分,可对其性能进行微调以满足特定要求。这些材料具有卓越的机械、电气和光学特性,包括可调带隙、高吸收系数和光导率。振动和磁性使其成为纳米级传感和磁存储应用的理想候选材料。这些材料的特性可以通过不同的方法进行精确控制,如尺寸相关特性、相工程、掺杂、合金化、缺陷和空位工程、插层、形态学、异质结或杂化。文中讨论了二维 Janus MoSSe 和合金 MoSxSe(1-x) 的各种合成方法,包括水热法/溶热法、化学气相传输法、化学气相沉积法、物理气相沉积法和其他方法。综述还介绍了基于 Janus 和合金 MoSSe 的应用的最新进展,如化学和气体传感器、表面增强拉曼光谱、场发射和能量存储。此外,综述还强调了这些材料研究的挑战和未来方向,包括需要改进合成方法、了解其稳定性以及探索新的应用。尽管还处于早期研究阶段,但这两种基于 MoSSe 的材料已在各个领域显示出巨大的潜力,本综述为有兴趣探索其潜力的研究人员和工程师提供了宝贵的见解。
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