Qi Wang scite author profile

Electrocatalytic reduction of carbon dioxide (CO2ER) in rechargeable Zn–CO2 battery still remains a great challenge. Herein, a highly efficient CO2ER electrocatalyst composed of coordinatively unsaturated single‐atom copper coordinated with nitrogen sites anchored into graphene matrix (Cu–N2/GN) is reported. Benefitting from the unsaturated coordination environment and atomic dispersion, the ultrathin Cu–N2/GN nanosheets exhibit a high CO2ER activity and selectivity for CO production with an onset potential of −0.33 V and the maximum Faradaic efficiency of 81% at a low potential of −0.50 V, superior to the previously reported atomically dispersed Cu–N anchored on carbon materials. Experimental results manifest the highly exposed and atomically dispersed Cu–N2 active sites in graphene framework where the Cu species are coordinated by two N atoms. Theoretical calculations demonstrate that the optimized reaction free energy for Cu–N2 sites to capture CO2 promote the adsorption of CO2 molecules on Cu–N2 sites; meanwhile, the short bond lengths of Cu–N2 sites accelerate the electron transfer from Cu–N2 sites to *CO2, thus efficiently boosting the *COOH generation and CO2ER performance. A designed rechargeable Zn–CO2 battery with Cu–N2/GN nanosheets deliver a peak power density of 0.6 mW cm−2, and the charge process of battery can be driven by natural solar energy.

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Anti-Angiotensin Type 1 Receptor Antibodies Associated With Antibody Mediated Rejection in Donor HLA Antibody Negative Patients

Reinsmoen

et al. 2010

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Carbon nanofibers supported Pt–Ru electrocatalysts for direct methanol fuel cells

Guo

Sun

Wang

et al. 2006

Carbon

178

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Low-temperature plasma synthesis of carbon nanotubes and graphene based materials and their fuel cell applications

et al. 2013

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Carbon nanotubes (CNTs) and graphene, and materials based on these, are largely used in multidisciplinary fields. Many techniques have been put forward to synthesize them. Among all kinds of approaches, the low-temperature plasma approach is widely used due to its numerous advantages, such as highly distributed active species, reduced energy requirements, enhanced catalyst activation, shortened operation time and decreased environmental pollution. This tutorial review focuses on the recent development of plasma synthesis of CNTs and graphene based materials and their electrochemical application in fuel cells.

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Qi Wang

Atomically Defined Undercoordinated Active Sites for Highly Efficient CO₂ Electroreduction

Anti-Angiotensin Type 1 Receptor Antibodies Associated With Antibody Mediated Rejection in Donor HLA Antibody Negative Patients

Carbon nanofibers supported Pt–Ru electrocatalysts for direct methanol fuel cells

Low-temperature plasma synthesis of carbon nanotubes and graphene based materials and their fuel cell applications

Contact Info

Product

Resources

About

Qi Wang

Atomically Defined Undercoordinated Active Sites for Highly Efficient CO2 Electroreduction

Anti-Angiotensin Type 1 Receptor Antibodies Associated With Antibody Mediated Rejection in Donor HLA Antibody Negative Patients

Carbon nanofibers supported Pt–Ru electrocatalysts for direct methanol fuel cells

Low-temperature plasma synthesis of carbon nanotubes and graphene based materials and their fuel cell applications

Contact Info

Product

Resources

About

Atomically Defined Undercoordinated Active Sites for Highly Efficient CO₂ Electroreduction