@article{Meng2025, 
author = {Xiangfa Meng and Li Liu and Sen Wang and Xueying Wang and Yunxia Liang and Zhenbang Liu and Yongsheng Xu and Zongyuan Wang and Yanzhao Dong and Haiyang Zhang and Jinli Zhang},
title = {Controlled size synthesis of ruthenium catalysts for acetylene hydrochlorination: From nanoparticles to clusters and single atoms},
year = {2025},
journal = {Nano Research},
volume = {18},
number = {12},
pages = {94908082},
keywords = {single atom, acetylene hydrochlorination, size-dependent effect, Ru catalysts, rate-determining-step},
url = {https://www.sciopen.com/article/10.26599/NR.2025.94908082},
doi = {10.26599/NR.2025.94908082},
abstract = {Metal nanoparticles, clusters, and single atoms exhibit remarkable variations in catalytic performance due to their different electronic and atomic structures. To explore the size-dependent effects on acetylene hydrochlorination, a series of Ru catalysts (including single atoms (Ru SAC CS), clusters (Ru ACs CS), and nanoparticles (Ru NPs CS) catalysts) were accurately synthesized by a defect-engineering strategy. Ru SAC CS demonstrated the optimal catalytic performance. The structural–activity relationship between the catalyst’s initial activity and charge, Ru–Ru coordination number and the oxidation state of Ru sites offer insights into how the structure of Ru active sites affects acetylene hydrochlorination at the atomic scale. Density functional theory (DFT) simulations reveal that the energy barrier for the rate-determine-step (*Cl approaching the *CH2=CH intermediate to form *C2H3Cl) for Ru SAC CS is significantly lower, facilitating barrier overcoming and enhancing vinyl chloride formation. Furthermore, Ru SAC CS displays suitable adsorption energies for C2H2 and C2H3Cl, which is conducive to prevent coke deposition and enhance the catalytic stability. This research demonstrates the efficiency of Ru single-atom catalysts for acetylene hydrochlorination and offers new perspectives on the precise construction and catalytic mechanism of sub-nanometer catalysts.}
}