Operando X-ray absorption and EPR evidence for a single electron redox process in copper catalysis

Qingquan Lu; Jian Zhang; Pan Peng; Guanghui Zhang; Zhiliang Huang; Hong Yi; Jeffrey T Miller; Aiwen Lei

doi:10.1039/c5sc00807g

Operando X-ray absorption and EPR evidence for a single electron redox process in copper catalysis

Chem Sci. 2015 Aug 1;6(8):4851-4854. doi: 10.1039/c5sc00807g. Epub 2015 May 26.

Authors

Qingquan Lu¹, Jian Zhang¹, Pan Peng¹, Guanghui Zhang^{1

2}, Zhiliang Huang^{1

2}, Hong Yi¹, Jeffrey T Miller^{2

3}, Aiwen Lei^{1

4

2}

Affiliations

¹ College of Chemistry and Molecular Sciences , The Institute for Advanced Studies (IAS) , Wuhan University , Wuhan 430072 , Hubei , P. R. China . Email: aiwenlei@whu.edu.cn.
² Chemical Sciences and Engineering Division , Argonne National Laboratory , 9700 S. Cass Ave , Argonne , IL 60439 , USA.
³ Department of Chemical Engineering , Purdue University , W. Lafayette , IN 47907 , USA.
⁴ National Research Center for Carbohydrate Synthesis , Jiangxi Normal University , Nanchang 330022 , Jiangxi , P. R. China.

Abstract

An unprecedented single electron redox process in copper catalysis is confirmed using operando X-ray absorption and EPR spectroscopies. The oxidation state of the copper species in the interaction between Cu(ii) and a sulfinic acid at room temperature, and the accurate characterization of the formed Cu(i) are clearly shown using operando X-ray absorption and EPR evidence. Further investigation of anion effects on Cu(ii) discloses that bromine ions can dramatically increase the rate of the redox process. Moreover, it is proven that the sulfinic acids are converted into sulfonyl radicals, which can be trapped by 2-arylacrylic acids and various valuable β-keto sulfones are synthesized with good to excellent yields under mild conditions.