中文

[ACIE] Prof. Wen-Jing Hong published a paper entitled "Single Dynamic Covalent Bond Tailored Responsive Molecular Junctions"

Posted:2021-07-17  Visits:

Title: Single Dynamic Covalent Bond Tailored Responsive Molecular Junctions

Authors: Yong Hu, Jin Li, Yu Zhou, Jie Shi, Guopeng Li, Hang Song, Yang Yang, Jia Shi, Wenjing Hong*

Abstract: Responsive molecular devices are one of the core units for molecular electronics, and dynamic covalent bonds (DCBs) provide the opportunity for the fabrication of responsive molecular devices. Herein we employ a single dynamic acyl hydrazone bond to fabricate tailored molecular devices using the scanning tunneling microscopy break-junction technique (STM-BJ) and the eutectic Ga-In technique (EGaIn). We found that the single-DCB-tailored molecular devices exhibited acid-base and/or photo-thermal response with three well-defined molecular conductance states. The reversible switching has the ON/OFF ratio of ≈10 between each state for single-molecule junctions and ≈3 for the SAMs-based molecular junctions. Combined with the density functional theory calculations, we revealed that the multiple conductance states of these molecular junctions originate from the dynamic acyl hydrazone bond exchange and C=N isomerization. Our work opens the avenue towards the design of tailored single-molecule electrical devices by implanting dynamic covalent bonds in molecular architectures.

Full-Link: https://onlinelibrary.wiley.com/doi/10.1002/anie.202106666