Polytypic metal chalcogenide nanocrystals

IF 40.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Liang Wu, Yi Li, Guo-Qiang Liu and Shu-Hong Yu
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引用次数: 0

Abstract

By engineering chemically identical but structurally distinct materials into intricate and sophisticated polytypic nanostructures, which often surpass their pure phase objects and even produce novel physical and chemical properties, exciting applications in the fields of photovoltaics, electronics and photocatalysis can be achieved. In recent decades, various methods have been developed for synthesizing a library of polytypic nanocrystals encompassing IV, III–V and II–VI polytypic semiconductors. The exceptional performances of polytypic metal chalcogenide nanocrystals have been observed, making them highly promising candidates for applications in photonics and electronics. However, achieving high-precision control over the morphology, composition, crystal structure, size, homojunctions, and periodicity of polytypic metal chalcogenide nanostructures remains a significant synthetic challenge. This review article offers a comprehensive overview of recent progress in the synthesis and control of polytypic metal chalcogenide nanocrystals using colloidal synthetic strategies. Starting from a concise introduction on the crystal structures of metal chalcogenides, the subsequent discussion delves into the colloidal synthesis of polytypic metal chalcogenide nanocrystals, followed by an in-depth exploration of the key factors governing polytypic structure construction. Subsequently, we provide comprehensive insights into the physical properties of polytypic metal chalcogenide nanocrystals, which exhibit strong correlations with their applications. Thereafter, we emphasize the significance of polytypic nanostructures in various applications, such as photovoltaics, photocatalysis, transistors, thermoelectrics, stress sensors, and the electrocatalytic hydrogen evolution. Finally, we present a summary of the recent advancements in this research field and provide insightful perspectives on the forthcoming challenges, opportunities, and future research directions.

Abstract Image

Abstract Image

多型金属瑀纳米晶体。
通过将化学性质相同但结构不同的材料加工成复杂而精密的多晶体纳米结构,这些纳米结构往往会超越其纯相物,甚至产生新的物理和化学特性,从而在光伏、电子和光催化领域实现令人兴奋的应用。近几十年来,人们开发了各种方法来合成多型纳米晶体库,其中包括 IV 型、III-V 型和 II-VI 型多型半导体。多类型金属钙化物纳米晶体具有卓越的性能,因此在光子学和电子学领域的应用前景十分广阔。然而,如何高精度地控制多型金属瑀纳米结构的形态、组成、晶体结构、尺寸、同质结和周期性,仍然是一项重大的合成挑战。这篇综述文章全面概述了利用胶体合成策略合成和控制多型金属瑀纳米晶体的最新进展。文章首先简要介绍了金属霰化物的晶体结构,然后深入探讨了多型金属霰化物纳米晶体的胶体合成,最后深入探讨了影响多型结构构建的关键因素。随后,我们对多型金属钙化物纳米晶体的物理性质进行了全面深入的探讨,这些物理性质与其应用有着密切的联系。之后,我们强调了多型纳米结构在光伏、光催化、晶体管、热电、应力传感器和电催化氢进化等各种应用中的重要意义。最后,我们总结了该研究领域的最新进展,并对即将面临的挑战、机遇和未来研究方向提出了独到的见解。
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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来源期刊
Chemical Society Reviews
Chemical Society Reviews 化学-化学综合
CiteScore
80.80
自引率
1.10%
发文量
345
审稿时长
6.0 months
期刊介绍: Chemical Society Reviews is published by: Royal Society of Chemistry. Focus: Review articles on topics of current interest in chemistry; Predecessors: Quarterly Reviews, Chemical Society (1947–1971); Current title: Since 1971; Impact factor: 60.615 (2021); Themed issues: Occasional themed issues on new and emerging areas of research in the chemical sciences
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