Surface nanostructures regulated by chalcogen bonding interactions.

IF 6.6 2区材料科学 Q1 CHEMISTRY, PHYSICAL

Nanoscale Horizons Pub Date : 2025-09-30 DOI:10.1039/d5nh00463b

Xinyi Zhang, Qiang Sun, Liangliang Cai, Andrew T S Wee

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引用次数: 0

Abstract

In recent years, chalcogen bonding (ChB) has emerged as a versatile tool for the bottom-up construction of functional nanostructures on surfaces. This minireview systematically explores the fundamental principles and recent advancements in ChB-directed on-surface synthesis. We highlight how ChB, characterized by its strong directionality and tunable interaction strength, complements conventional noncovalent interactions (hydrogen bonds, halogen bonds, and metal-ligand coordination) in engineering well-defined low-dimensional architectures. The key findings demonstrate ChB's unique capabilities in driving molecular recognition, controlling topology selectivity in conformationally flexible precursors, and facilitating disorder-to-order transitions in two-dimensional (2D) networks. Particularly, we discuss how surface confinement modifies ChB properties, enabling novel assembly pathways and reactivity in on-surface synthesis. By bridging fundamental ChB interactions and the practical implementation in on-surface nanotechnology, this minireview provides valuable insights for designing functional nanomaterials through rational ChB engineering, while outlining current challenges and future directions in this emerging field.

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由碳键相互作用调控的表面纳米结构。

近年来，硫键（ChB）已成为一种多用途的工具，用于在表面上自下而上地构建功能纳米结构。本文系统地探讨了chb定向表面合成的基本原理和最新进展。我们强调了ChB如何以其强方向性和可调节的相互作用强度为特征，在工程定义良好的低维结构中补充了传统的非共价相互作用（氢键、卤素键和金属配体配位）。这些关键发现证明了ChB在驱动分子识别、控制构象柔性前体的拓扑选择性以及促进二维（2D）网络中无序到有序转变方面的独特能力。特别地，我们讨论了表面约束如何改变ChB的性质，从而在表面合成中实现新的组装途径和反应性。通过连接基本的ChB相互作用和表面纳米技术的实际应用，本综述为通过合理的ChB工程设计功能纳米材料提供了有价值的见解，同时概述了这一新兴领域的当前挑战和未来方向。

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

Nanoscale Horizons Materials Science-General Materials Science

CiteScore

16.30

自引率

1.00%

发文量

141

期刊介绍： Nanoscale Horizons stands out as a premier journal for publishing exceptionally high-quality and innovative nanoscience and nanotechnology. The emphasis lies on original research that introduces a new concept or a novel perspective (a conceptual advance), prioritizing this over reporting technological improvements. Nevertheless, outstanding articles showcasing truly groundbreaking developments, including record-breaking performance, may also find a place in the journal. Published work must be of substantial general interest to our broad and diverse readership across the nanoscience and nanotechnology community.