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Regulation of the photophysical dynamics of metal nanoclusters by manipulating single-point defects

Peiyao Pan, Weinan Dong, Wentao Huang, Xue Bai, Zhennan Wu (), Xi Kang () and Manzhou Zhu ()
Additional contact information
Peiyao Pan: Anhui University
Weinan Dong: Jilin University
Wentao Huang: Anhui University
Xue Bai: Jilin University
Zhennan Wu: Jilin University
Xi Kang: Anhui University
Manzhou Zhu: Anhui University

Nature Communications, 2025, vol. 16, issue 1, 1-7

Abstract: Abstract Metal nanoclusters have served as an emerging class of programmable nanomaterials with customized structures. However, it remains highly challenging to achieve the single-atom regulation of metal nanoclusters without altering their structural frameworks. Here, we achieve the single-point defects manipulation based upon a cluster pair of Au21 and Au22 by meticulously complementing the surface defects of the former nanocluster with an additional single-Au complex. The two nanoclusters exhibited identical geometric structures, but their pronounced quantum-confinement effects resulted in different electronic properties, evident in their distinct optical absorption and emission characteristics. Temperature-dependent steady-state photoluminescence spectra and femtosecond transient absorption spectra showed that the manipulation of a single-point defect in Au22 inhibited non-radiative decay pathways, reduced electron loss at higher energy levels, and accelerated intersystem crossing, which ultimately enhanced its emission intensity. Overall, the Au21 and Au22 cluster system in this study provides a cluster platform with controllable surface single-point defects, enabling the regulation of the photophysical dynamics at the atomic level.

Date: 2025
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DOI: 10.1038/s41467-025-65024-3

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