Chenxiao Wu scite author profile

Cuprous oxide/hematite nanotubes (Cu2O/Fe2O3NTs) were prepared by a potentiostatic electrodeposited method, in which different structured Cu2O materials were modified onto Fe2O3 NTs surface. Among them, the material with double-layer Cu2O spheres (Cu2O/Fe2O3 NTs-30) showed excellent photoelectrocatalytic (PEC) properties with a suitable energy band gap (1.96 eV) and a smaller overpotential (0.18 V). Furthermore, Cu2O/Fe2O3 NTs-30 showed two types of synergisms in the PEC reduction of CO2: (i) between electrocatalysis and photocatalysis and (ii) between Cu2O and Fe2O3NTs. The faradaic efficiency and methanol yield reached 93% and 4.94 mmol L(-1) cm(-2) after 6 h, respectively.

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Co-doped MoS2 NPs with matched energy band and low overpotential high efficiently convert CO2 to methanol

Peng

Lü

et al. 2015

Applied Surface Science

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Wedged N-doped CuO with more negative conductive band and lower overpotential for high efficiency photoelectric converting CO2 to methanol

Hua

et al. 2014

Applied Catalysis B: Environmental

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Spatially confined synthesis of a flexible and hierarchically porous three-dimensional graphene/FeP hollow nanosphere composite anode for highly efficient and ultrastable potassium ion storage

Zhang

Chen

et al. 2020

J. Mater. Chem. A

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Chenxiao Wu

New insights into the photo-enhanced electrocatalytic reduction of carbon dioxide on MoS2-rods/TiO2 NTs with unmatched energy band

High-efficiency synergistic conversion of CO₂ to methanol using Fe₂O₃ nanotubes modified with double-layer Cu₂O spheres

Co-doped MoS2 NPs with matched energy band and low overpotential high efficiently convert CO2 to methanol

Wedged N-doped CuO with more negative conductive band and lower overpotential for high efficiency photoelectric converting CO2 to methanol

Spatially confined synthesis of a flexible and hierarchically porous three-dimensional graphene/FeP hollow nanosphere composite anode for highly efficient and ultrastable potassium ion storage

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Chenxiao Wu

New insights into the photo-enhanced electrocatalytic reduction of carbon dioxide on MoS2-rods/TiO2 NTs with unmatched energy band

High-efficiency synergistic conversion of CO2 to methanol using Fe2O3 nanotubes modified with double-layer Cu2O spheres

Co-doped MoS2 NPs with matched energy band and low overpotential high efficiently convert CO2 to methanol

Wedged N-doped CuO with more negative conductive band and lower overpotential for high efficiency photoelectric converting CO2 to methanol

Spatially confined synthesis of a flexible and hierarchically porous three-dimensional graphene/FeP hollow nanosphere composite anode for highly efficient and ultrastable potassium ion storage

Contact Info

Product

Resources

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High-efficiency synergistic conversion of CO₂ to methanol using Fe₂O₃ nanotubes modified with double-layer Cu₂O spheres