Zhe Zhang scite author profile

Photocatalytic biomass conversion represents an ideal way of generating syngas because of the sustainable use of biomass carbon and solar energy. However, the lack of efficient electron–proton transfer limits its efficiency. We here report an unprecedented method to simultaneously increase both the electron and proton transfer by creating surface sulfate ions on the CdS catalyst ([SO4]/CdS). Surface sulfate ion [SO4] is bifunctional, serving as the proton acceptor to promote proton transfer, and increasing the oxidation potential of the valence band to enhance electron transfer. [SO4]/CdS produces a syngas mixture from glycerol without CO2. Compared with pristine CdS, [SO4]/CdS exhibits 9-fold higher CO generation rate (0.31 mmol g–1 h–1) and 4-fold higher H2 generation (0.05 mmol g–1 h–1). A wide range of sugars, such as glucose, fructose, maltose, sucrose, xylose, lactose, insulin, and starch, were facilely converted into syngas. This study reports the pivotal effect of surface sulfate ion on electron–proton transfer in photocatalysis and provides a facile method for increasing photocatalytic efficiency.

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Iron triad (Fe, co, Ni) trinary phosphide nanosheet arrays as high-performance bifunctional electrodes for full water splitting in basic and neutral conditions

Zhang

Hao

Yang

et al. 2016

RSC Adv.

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Zhe Zhang

Forest-like NiCoP@Cu₃P supported on copper foam as a bifunctional catalyst for efficient water splitting

Surface Sulfate Ion on CdS Catalyst Enhances Syngas Generation from Biopolyols

Iron triad (Fe, co, Ni) trinary phosphide nanosheet arrays as high-performance bifunctional electrodes for full water splitting in basic and neutral conditions

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Zhe Zhang

Forest-like NiCoP@Cu3P supported on copper foam as a bifunctional catalyst for efficient water splitting

Surface Sulfate Ion on CdS Catalyst Enhances Syngas Generation from Biopolyols

Iron triad (Fe, co, Ni) trinary phosphide nanosheet arrays as high-performance bifunctional electrodes for full water splitting in basic and neutral conditions

Contact Info

Product

Resources

About

Forest-like NiCoP@Cu₃P supported on copper foam as a bifunctional catalyst for efficient water splitting