Issue 4, 2010
From the journal:

Chemical Society Reviews

Electrochemical applications. How click chemistry brought biomimetic models to the next level: electrocatalysis under controlled rate of electron transfer

Richard A. Decréau,a   James P. Collman*a  and  Ali Hosseinia  

* Corresponding authors

a Stanford University, Department of Chemistry, 333 Campus Drive, Stanford, USA
E-mail: jpc@stanford.edu

Abstract

This tutorial review discusses the immobilization of alkyne-terminated cytochrome c oxidase models on azide-functionalized self-assembled monolayers (SAM) coated gold electrodes that was made possible by click chemistry. The rate of electron delivery from the electrode to the model could be tuned by changing the nature of the SAM. Biologically relevant electron transfer rates (2–4 s−1) were obtained on slow SAMs allowing the model to turn over catalytically under steady-state conditions. Hence, click chemistry was a crucial tool to demonstrate, through electrocatalytic studies: (1) the role played by several features present in the distal side of the model, such as the CuB–Tyr244 pair, the distal pocket, and the stabilizing role of a distal water cluster; (2) the reversible inhibition of O2 reduction by H2S.

Graphical abstract: Electrochemical applications. How click chemistry brought biomimetic models to the next level: electrocatalysis under controlled rate of electron transfer

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Article information

DOI
https://doi.org/10.1039/B901972N
Article type
Tutorial Review
Submitted
15 Oct 2009
First published
26 Jan 2010

Chem. Soc. Rev., 2010,39, 1291-1301

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Electrochemical applications. How click chemistry brought biomimetic models to the next level: electrocatalysis under controlled rate of electron transfer

R. A. Decréau, J. P. Collman and A. Hosseini, Chem. Soc. Rev., 2010, 39, 1291 DOI: 10.1039/B901972N

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