外围烷基对单分子电子学中结结构的影响。

Influence of Peripheral Alkyl Groups on Junction Configurations in Single-Molecule Electronics.

作者信息

Ornago Luca, Zwick Patrick, van der Poel Sebastiaan, Brandl Thomas, El Abbassi Maria, Perrin Mickael L, Dulić Diana, van der Zant Herre S J, Mayor Marcel

机构信息

Kavli Institute of Nanoscience, Delft University of Technology, Lorentzweg 1, 2628 CJ Delft, The Netherlands.

Department of Chemistry, University of Basel, St. Johanns-Ring 19, 4056 Basel, Switzerland.

出版信息

J Phys Chem C Nanomater Interfaces. 2024 Jan 16;128(3):1413-1422. doi: 10.1021/acs.jpcc.3c06970. eCollection 2024 Jan 25.

DOI:10.1021/acs.jpcc.3c06970

PMID:38293692

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10823531/

Abstract

The addition of a lateral alkyl chain is a well-known strategy to reduce π-stacked ensembles of molecules in solution, with the intention to minimize the interactions between the molecules' backbones. In this paper, we study whether this concept generalizes to single-molecule junctions by using a combination of mechanically controllable break junction (MCBJ) measurements and clustering-based data analysis with two small series of model compounds decorated with various bulky groups. The systematic study suggests that introducing alkyl side chains also favors the formation of electrode-molecule configurations that are not observed in their absence, thereby inducing broadening of the conductance peak in the one-dimensional histograms. Thus, the introduction of alkyl chains in aromatic compounds for molecular electronics must be carefully designed and optimized for the specific purpose, balancing between increased solubility and the possibility of additional junction configurations.

摘要

添加侧链烷基是一种众所周知的策略，用于减少溶液中分子的π堆积聚集体，目的是最小化分子主链之间的相互作用。在本文中，我们通过结合机械可控断裂结（MCBJ）测量和基于聚类的数据分析，研究了这一概念是否适用于单分子结，所使用的是两小系列装饰有各种庞大基团的模型化合物。系统研究表明，引入烷基侧链也有利于形成在没有侧链时未观察到的电极 - 分子构型，从而导致一维直方图中的电导峰变宽。因此，对于分子电子学中芳香族化合物引入烷基链，必须针对特定目的进行精心设计和优化，在增加溶解度和额外结构型可能性之间取得平衡。

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外围烷基对单分子电子学中结结构的影响。

Influence of Peripheral Alkyl Groups on Junction Configurations in Single-Molecule Electronics.

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