在常压空气中大规模合成过渡金属二钙化物

IF 7.9 2区 综合性期刊 Q1 CHEMISTRY, MULTIDISCIPLINARY
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引用次数: 0

摘要

近年来,过渡金属二卤化物(TMDs)因其引人入胜的化学和物理特性而受到广泛关注。然而,包括化学气相沉积和湿化学合成在内的传统合成方法在大规模生产中仍面临诸多挑战。在此,我们开发了一种动态盐封方法,可在常压空气中大规模制备 TMDs(MoS2、WS2),产率高达 95% 以上。借助二元盐(KCl、KBr),在相对较低的温度(400°C)下,只需 1 小时的短反应时间,即可轻松获得 TMD。合成的 MoS2 粉末呈花朵状纳米球,在氢气进化反应中具有理想的催化性能,作为锂离子电池的负极材料具有良好的电化学性能。这项工作提供了一种低成本、低耗时、高质量、大量合成 TMDs 的简单方法,具有融入工业生产的巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Large-scale synthesis of transition metal dichalcogenides at atmospheric pressure in air

Large-scale synthesis of transition metal dichalcogenides at atmospheric pressure in air

Transition metal dichalcogenides (TMDs) have received considerable attention in recent years because of their intriguing chemical and physical properties. However, conventional synthesis methods, including chemical vapor deposition and wet-chemical synthesis, still face many challenges in mass production. Here, we develop a dynamic salt capsulation method to massively prepare TMDs (MoS2, WS2) at atmospheric pressure in air with a high yield of over 95%. With the help of binary salts (KCl, KBr), TMDs can be easily obtained for a short reaction time of 1 h at a relatively low temperature (400°C). The as-synthesized MoS2 powders show flower-like nanospheres, which exhibit a desired catalytic performance in hydrogen evolution reactions and good electrochemical performance as anode materials in lithium-ion batteries. This work provides a simple method to synthesize high-quality and large quantities of TMDs with low cost and time consumption, which has a great potential to integrate into industrial production.

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来源期刊
Cell Reports Physical Science
Cell Reports Physical Science Energy-Energy (all)
CiteScore
11.40
自引率
2.20%
发文量
388
审稿时长
62 days
期刊介绍: Cell Reports Physical Science, a premium open-access journal from Cell Press, features high-quality, cutting-edge research spanning the physical sciences. It serves as an open forum fostering collaboration among physical scientists while championing open science principles. Published works must signify significant advancements in fundamental insight or technological applications within fields such as chemistry, physics, materials science, energy science, engineering, and related interdisciplinary studies. In addition to longer articles, the journal considers impactful short-form reports and short reviews covering recent literature in emerging fields. Continually adapting to the evolving open science landscape, the journal reviews its policies to align with community consensus and best practices.
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