Rational design of carborane-based Cu2-paddle wheel coordination polymers for increased hydrolytic stability

Zhen Li; Duane Choquesillo-Lazarte; Julio Fraile; Clara Viñas; Francesc Teixidor; José G. Planas

Journal ArticleOPEN ACCESS

Rational design of carborane-based Cu2-paddle wheel coordination polymers for increased hydrolytic stability

Li Z
Choquesillo-Lazarte D
Fraile J
et al.

Dalton Transactions (2022) 51(3) 1137-1143

DOI: 10.1039/d1dt04065k

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Abstract

A new unsymmetric carborane-based dicarboxylic linker provided a 1D Cu2-paddle wheel coordination polymer (2) with much higher hydrolytic stability than the corresponding 2D Cu2-paddle wheel polymer (1), obtained from a related more symmetrical carborane-based linker. Both 1 and 2 were used as efficient heterogeneous catalysts for a model aza-Michael reaction but only 2 can be reused several times without significant degradation in catalytic activity.

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Li, Z., Choquesillo-Lazarte, D., Fraile, J., Viñas, C., Teixidor, F., & Planas, J. G. (2022). Rational design of carborane-based Cu2-paddle wheel coordination polymers for increased hydrolytic stability. Dalton Transactions, 51(3), 1137–1143. https://doi.org/10.1039/d1dt04065k

Rational design of carborane-based Cu2-paddle wheel coordination polymers for increased hydrolytic stability

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