Oxidative Addition of E−H (E=C, N) Bonds to Transient Uranium(II) Centers

Author:

Fang Wei1,Li Yafei1,Zhang Tianze1,Rajeshkumar Thayalan2,del Rosal Iker2,Zhao Yue1,Wang Tianwei1,Wang Shuao3,Maron Laurent2,Zhu Congqing1ORCID

Affiliation:

1. State Key Laboratory of Coordination Chemistry Jiangsu Key Laboratory of Advanced Organic Materials School of Chemistry and Chemical Engineering Nanjing University Nanjing 210023 China

2. LPCNO CNRS & INSA Université Paul Sabatier 135 Avenue de Rangueil 31077 Toulouse France

3. State Key Laboratory of Radiation Medicine and Protection School for Radiological and interdisciplinary Sciences (RAD−X) Collaborative Innovation Center of Radiation Medicine of Jiangsu Higher Education Institutions Soochow University Suzhou China

Abstract

AbstractTwo‐electron oxidative addition is one of the most important elementary reactions for d‐block transition metals but it is uncommon for f‐block elements. Here, we report the first examples of intermolecular oxidative addition of E−H (E=C, N) bonds to uranium(II) centers. The transient U(II) species was formed in‐situ by reducing a heterometallic cluster featuring U(IV)‐Pd(0) bonds with potassium‐graphite (KC8). Oxidative addition of C−H or N−H bonds to the U(II) centers was observed when this transient U(II) species was treated with benzene, carbazole or 1‐adamantylamine, respectively. The U(II) centers could also react with tetracene, biphenylene or N2O, leading to the formation of arene reduced U(IV) products and uranyl(VI) species via two‐ or four‐electron processes. This study demonstrates that the intermolecular two‐electron oxidative addition reactions are viable for actinide elements.

Funder

National Natural Science Foundation of China

Publisher

Wiley

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