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通过碲基硫族元素-有机相互作用在金属表面构建分子网络

Constructing Molecular Networks on Metal Surfaces through Tellurium-Based Chalcogen-Organic Interaction.

作者信息

Zheng Fengru, Huang Qi, Xiang Juan, Zhu Zhiwen, Lu Jiayi, Xu Jinyang, Liang Zhaofeng, Xie Lei, Song Fei, Sun Qiang

机构信息

Materials Genome Institute, Shanghai University, Shanghai 200444, China.

Shanghai Synchrotron Radiation Facility, Shanghai Advanced Research Institute, Chinese Academy of Sciences, Shanghai 201204, China.

出版信息

ACS Nano. 2024 Oct 15;18(41):28425-28432. doi: 10.1021/acsnano.4c11344. Epub 2024 Oct 3.

Abstract

On-surface molecular self-assembly presents an important approach to the development of low-dimensional functional nanostructures and nanomaterials. Traditional strategies primarily exploit hydrogen bonding or metal coordination, yet the potential of chalcogen bonding (ChB) for on-surface self-assemblies remains underexplored. Here, we explore fabricating molecular networks via tellurium (Te)-directed chalcogen-organic interactions. Employing carbonitrile molecules as molecular building blocks, we have achieved extended 2D networks exhibiting a 4-fold binding motif on Au(111), marking a notable difference from the conventional coordinative interaction involving transition metals. Our findings, supported by density functional theory (DFT) and scanning tunneling spectroscopy (STS), show that the Te-carbonitrile interaction exhibits lower stability compared to the metal-organic coordination, and the construction of the Te-directed molecular networks does not alter the electronic properties of the involved molecules. Introducing chalcogen-directed interactions may expand the spectrum of strategies in supramolecular assembly, contributing to the design of advanced molecular architectures for nanotechnological applications.

摘要

表面分子自组装是开发低维功能纳米结构和纳米材料的重要方法。传统策略主要利用氢键或金属配位作用,然而硫族元素键合(ChB)在表面自组装方面的潜力仍未得到充分探索。在此,我们探索通过碲(Te)导向的硫族元素 - 有机相互作用构建分子网络。以腈类分子作为分子构建单元,我们在Au(111)上实现了具有四重结合基序的扩展二维网络,这与涉及过渡金属的传统配位相互作用有显著差异。我们的研究结果得到密度泛函理论(DFT)和扫描隧道谱(STS)的支持,表明Te - 腈相互作用与金属 - 有机配位相比稳定性较低,并且Te导向的分子网络的构建不会改变所涉及分子的电子性质。引入硫族元素导向的相互作用可能会扩展超分子组装策略的范围,有助于设计用于纳米技术应用的先进分子结构。

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