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Coordination chemistry of the calix[6]arene system: application in polymerisation catalysis and beyond (2025)
Journal Article
Redshaw, C. (in press). Coordination chemistry of the calix[6]arene system: application in polymerisation catalysis and beyond. Dalton Transactions : an international journal of inorganic chemistry, https://doi.org/10.1039/d5dt00473j

This perspective looks at structurally characterized examples of metal-based calix[6]arene complexes, focusing on the coordination chemistry adopted and their applications, primarily in polymerisation catalysis. In particular, we look at our attempts... Read More about Coordination chemistry of the calix[6]arene system: application in polymerisation catalysis and beyond.

Tin Complexes Derived from the Acids Ph<inf>2</inf>C(X)CO<inf>2</inf>H (X = OH, NH<inf>2</inf>): Structure and ROP Capability (2025)
Journal Article
Prior, T. J., & Redshaw, C. (2025). Tin Complexes Derived from the Acids Ph2C(X)CO2H (X = OH, NH2): Structure and ROP Capability. Catalysts, 15(3), Article 261. https://doi.org/10.3390/catal15030261

Interaction of [Sn(OtBu)4] with the acid 2,2′-diphenylgylcine, Ph2C(X)CO2H (X = NH2), affords the complex {Sn[Ph2C(NH2)(CO2)]4}·2MeCN (1·2MeCN) after work-up, whereas when X = OH (benzilic acid), the complex {Sn[Ph2C(O)(CO2)]2(CH3CO2H)2} (2) is isola... Read More about Tin Complexes Derived from the Acids Ph<inf>2</inf>C(X)CO<inf>2</inf>H (X = OH, NH<inf>2</inf>): Structure and ROP Capability.