Electrocatalytic hydrogen evolution mediated by an organotelluroxane macrocycle stabilized through secondary interactions

TitleElectrocatalytic hydrogen evolution mediated by an organotelluroxane macrocycle stabilized through secondary interactions
Publication TypeJournal Article
Year of Publication2023
AuthorsNarsimhulu, G, Samuel, C, Palani, S, Dasari, SHemant Kum, Krishnamoorthy, K, Baskar, V
JournalDalton Transaction
Volume52
Issue46
Pagination17242-17248
Date PublishedNOV
Type of ArticleJournal Article
ISSN1477-9226
KeywordsAnion Transport, Proton-Reduction
Abstract

A discrete liphophilic organotelluroxane macrocycle has been found to catalyse the hydrogen evolution reaction (HER) by proton reduction efficiently. The macrocycle is synthesized via chloride abstraction from bis(p-methoxyphenyl) tellurium dichloride (p-MeOC6H5)2TeCl2 (1) by silver salts AgMX4 (MX4 = BF4-, and ClO4-) resulting in in situ generated di-cationic tetraorganoditelluroxane units; two such units are held together by two weak anions mu 2-MX4, bridging to form 12-membered di-cationic macrocycles [((p-MeO-C6H4)2Te)2(mu-O)(mu 2-F2BF2)2]2+ (2) and [((p-MeO-C6H4)2Te)2(mu-O)(mu 2-O2ClO2)2]2+ (3) stabilized via Te-(mu 2-BF4/ClO4), with secondary interactions. The charge is balanced by the presence of two more anions, one above and another below the plane of the macrocycle. Similar reaction at higher temperatures leads to the formation of telluronium salts R3TeX [X = BF4- (4), ClO4- (5)] as a major product. The BF4- anion containing macrocycle and telluronium salt were monitored using 19F NMR. HRMS confirmed the structural stability of all the compounds in the solution state. The organotelluroxane macrocycle 2 has been found to act as an efficient electrocatalyst for proton reduction in an organic medium in the presence of p-toluene sulfonic acid as a protic source. A discrete liphophilic organotelluroxane macrocycle has been found to catalyse hydrogen evolution reaction (HER) by proton reduction efficiently.

DOI10.1039/d3dt02746e
Type of Journal (Indian or Foreign)

Foreign

Impact Factor (IF)

4

Divison category: 
Polymer Science & Engineering
Database: 
Web of Science (WoS)

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