4.7 Article

Light-triggered reversible supramolecular self-assembly of azo groups-functionalized copper nanoclusters

期刊

JOURNAL OF MOLECULAR LIQUIDS
卷 343, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.molliq.2021.117698

关键词

Copper nanocluster; Photoresponsive; Self-assembly; Nanofiber

资金

  1. National Natural Science Foundation of China [21972077, 21875129]
  2. Key Technology Research and Development Program of Shandong [2019GGX102019]

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Photoresponsive Cu nanoclusters with atomic precision were prepared using an azo-containing ligand, demonstrating light-triggered reversible self-assembly into nanofibers in a binary solvent mixture. UV irradiation caused the originally straight nanofibers to bend due to the isomerization of the peripheral azo groups, while exposure to visible light resulted in the reformation of the nanofibers. This light-triggered, reversible morphological change process could be repeated at least three times, showing the high reversibility of Cu nanoclusters' behavior.
Metal nanoclusters (NCs) have attracted much attention due to their ultrasmall sizes and unique electronic structures. In recent years, the light-induced reversible assembly of Au NCs is already reported. However, to achieve light-triggered reversible self-assembly of Cu NCs is still challenging. Herein, we prepared photoresponsive Cu NCs by using an azo-containing ligand, i.e., 3,5-dimethyl-4-(phenyldiazenyl)-1H-pyrazole) (abbreviated to Hazopz). Each nanocluster contains three Cu(I) in the core and has atomic precision (denoted as Cu-3-NCs hereafter). Self-assembly of Cu-3-NCs into nanofibers occurred in binary solvent mixture with toluene as a good solvent and methanol (MeOH) as a poor one. When the suspension containing the nanofibers was irradiated by UV light, the originally straight nanofibers became bent. This morphological change is mainly due to the isomerization of the peripheral azo groups of the Cu-3-NCs from trans - to cis-conformation, and to a small extent ascribed to the increased solubility of the cis-conformation of the azo groups in the binary solvent. The disassembled aggregates can reassemble and the bent nanofibers can become straight again when exposed to visible light. This process can be repeated for at least three times, indicating the high reversibility of this light-triggered morphological change of Cu-3-NCs. The one-dimensional self-assemblies with light-triggered, reversible morphological changes achieved in this work can be potentially used as a medium material in an optical information storage device, and can write and erase information through the irradiation of UV light and visible light. (C) 2021 Elsevier B.V. All rights reserved.

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