Siqi Xiang scite author profile

Siqi Xiang

3Publications

9Citation Statements Received

58Citation Statements Given

How they've been cited

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213

Affiliations

Wuhan University, EarthTech International (United States)

Publications

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Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp³)−H Alkenylation**

et al. 2023

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Due to the intrinsic inertness of alkanes, strong oxidative conditions are typically required to enable their C(sp 3 )À H functionalization. Herein, a paired electrocatalysis strategy was developed by integrating oxidative catalysis with reductive catalysis in one cell without interference, in which earth-abundant iron and nickel are employed as the anodic and cathodic catalysts, respectively. This approach lowers the previously high oxidation potential required for alkane activation, enabling electrochemical alkane functionalization at the ultra-low oxidation potential of � 0.25 V vs. Ag/AgCl under mild conditions. Structurally diverse alkenes, including challenging all-carbon tetrasubstituted olefins, can be accessed using readily available alkenyl electrophiles.

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Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp³)−H Alkenylation**

et al. 2023

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Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp3)−H Alkenylation

Zou

Wang

Xiang

et al. 2022

Preprint

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Due to the intrinsic inertness of alkanes, strong oxidative conditions are typically required to enable their C(sp3)−H functionalization. Herein, a paired electrocatalysis strategy was developed by integrating oxidative catalysis with reductive catalysis in one cell without interference, in which earth-abundant iron and nickel are employed as the anodic and cathodic catalysts, respectively. This approach lowers the previously high oxidation potential required for alkane activation, enabling electrochemical alkane functionalization at the ultra-low oxidation potential of ~0.25 V under mild conditions. Structurally diverse alkenes, including challenging all-carbon tetrasubstituted olefins, can be accessed via this electrochemical C(sp3)−H alkenylation using readily available alkenyl electrophiles.

show abstract

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Siqi Xiang

Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp³)−H Alkenylation**

Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp³)−H Alkenylation**

Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp3)−H Alkenylation

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Siqi Xiang

Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp3)−H Alkenylation**

Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp3)−H Alkenylation**

Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp3)−H Alkenylation

Contact Info

Product

Resources

About

Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp³)−H Alkenylation**

Paired Oxidative and Reductive Catalysis: Breaking the Potential Barrier of Electrochemical C(sp³)−H Alkenylation**