Triethanolamine stabilized non-alkyl Sn4Cd4 and alkyl Sn2Cd12 oxo clusters with distinct electrocatalytic activities

Two unprecedented Sn/Cd-oxo clusters, including non-alkyltin SnII2SnIV2Cd4 and alkyltin SnIV2Cd12, have been constructed using triethanolamine and inorganic or organic tin precursors, respectively. Comparative electrocatalytic CO2 reduction experiments show that the presence of non-alkyl and variabl...

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Veröffentlicht in:	Chemical communications (Cambridge, England) England), 2022-04, Vol.58 (30), p.4759-4762
Hauptverfasser:	Wang, Di, Guang-Hui Chen, San-Tai, Wang, Zhang, Jian, Zhang, Lei
Format:	Artikel
Sprache:	eng
Schlagworte:	Clusters Tin Triethanolamine
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creator	Wang, Di Guang-Hui Chen San-Tai, Wang Zhang, Jian Zhang, Lei
description	Two unprecedented Sn/Cd-oxo clusters, including non-alkyltin SnII2SnIV2Cd4 and alkyltin SnIV2Cd12, have been constructed using triethanolamine and inorganic or organic tin precursors, respectively. Comparative electrocatalytic CO2 reduction experiments show that the presence of non-alkyl and variable-valent tin centres could greatly improve the catalytic activities.
doi_str_mv	10.1039/d2cc00574c
format	Article
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subjects	Clusters Tin Triethanolamine
title	Triethanolamine stabilized non-alkyl Sn4Cd4 and alkyl Sn2Cd12 oxo clusters with distinct electrocatalytic activities
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