利用低能电子诱导化学反应合成二维分子材料

CHIMIA International Journal for Chemistry Pub Date : 2019-07-26 DOI:10.2533/CHIMIA.2019.473

A. Turchanin

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引用次数: 7

摘要

在各种无机二维(2D)材料(石墨烯，hBN, MoS2等)的演示之后，分子二维材料也引起了重大的研究兴趣。然而，对化学家来说，直接合成这些材料是一项极具挑战性的任务。本文介绍了一种基于芳香族分子层中低能电子诱导化学反应合成二维分子材料的简便、可靠的物理方法。通过这种方法，可以制备出具有可调节化学和物理性质的超薄(~ 1nm)分子纳米片，称为碳纳米膜(CNM)。此外，该方法还可以合成各种其他二维有机-无机杂化物(例如MoS2-CNM，石墨烯- cnm横向异质结构等)或~ 20nm厚的有机半导体纳米片。讨论了这些分子二维材料的反应机理和功能特性，包括它们的化学功能化和杂化层次结构工程在纳米科学和纳米技术中的应用

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Synthesis of Molecular 2D Materials via Low-energy Electron Induced Chemical Reactions

After the demonstration of a variety of inorganic two-dimensional (2D) materials (graphene, hBN, MoS2, etc.), molecular 2D materials have attracted a significant research interest as well. However, the direct synthesis of these materials is an exceptionally challenging task for chemists. In this review article, a simple and robust physical method for the synthesis of molecular 2D materials is presented based on low-energy electron induced chemical reactions in aromatic molecular layers. In this way, ultrathin (~1 nm) molecular nanosheets with adjustable chemical and physical properties called Carbon Nanomembranes (CNM) can be prepared. Moreover, the method enables the synthesis of various other 2D organic-inorganic hybrids (e.g. MoS2-CNM, graphene-CNM lateral heterostructures, etc.) or ~20 nm thick nanosheets of organic semiconductors. Mechanisms of the reaction and functional properties of these molecular 2D materials including their chemical functionalization and engineering of hybrid hierarchical structures for application in nanoscience and nanotechnology are discussed

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CHIMIA International Journal for Chemistry

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