Wen-Yang Huang scite author profile

While exploring the process of CO/CO2 electroreduction (COxRR) is of great significance to achieve carbon recycling, deciphering reaction mechanisms so as to further design catalytic systems able to overcome sluggish kinetics remains challenging. In this work, a model single-Co-atom catalyst with well-defined coordination structure is developed and employed as a platform to unravel the underlying reaction mechanism of COxRR. The as-prepared single-Co-atom catalyst exhibits a maximum methanol Faradaic efficiency as high as 65% at 30 mA/cm2 in a membrane electrode assembly electrolyzer, while on the contrary, the reduction pathway of CO2 to methanol is strongly decreased in CO2RR. In-situ X-ray absorption and Fourier-transform infrared spectroscopies point to a different adsorption configuration of *CO intermediate in CORR as compared to that in CO2RR, with a weaker stretching vibration of the C–O bond in the former case. Theoretical calculations further evidence the low energy barrier for the formation of a H-CoPc-CO– species, which is a critical factor in promoting the electrochemical reduction of CO to methanol.

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Ultralow Ru-assisted and vanadium-doped flower-like CoP/Ni₂P heterostructure for efficient water splitting in alkali and seawater

Jin

Xia

et al. 2021

J. Mater. Chem. A

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Multiple crystallization pathways of amorphous calcium carbonate in the presence of poly(aspartic acid) with a chain length of 30

et al. 2022

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Operando X-ray absorption spectroscopic studies of the carbon dioxide reduction reaction in a modified flow cell

Hung

et al. 2022

Catal. Sci. Technol.

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Bioprocess inspired formation of calcite mesocrystals by cation-mediated particle attachment mechanism

Wang

Yuan

Huang

et al. 2023

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Calcite mesocrystals were proposed and have been widely reported to form in the presence of polymer additives via oriented assembly of nanoparticles. However, the formation mechanism and the role of polymer additives remain elusive. Here, inspired by the biomineralization process of sea urchin spine comprising magnesium calcite mesocrystals, we show that calcite mesocrystals could also be obtained via attachment of amorphous calcium carbonate (ACC) nanoparticles in the presence of inorganic zinc ions. Moreover, we demonstrate that zinc ions can induce the formation of temporarily stabilized amorphous nanoparticles of less than 20 nm at a significantly lower calcium carbonate concentration as compared to pure solution, which is energetically beneficial for the attachment and occlusion during calcite growth. The cation-mediated particle attachment crystallization significantly improves our understanding of mesocrystal formation mechanisms in biomineralization and offers new opportunities to bioprocess inspired inorganic ions regulated materials fabrication.

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Wen-Yang Huang

In-situ spectroscopic probe of the intrinsic structure feature of single-atom center in electrochemical CO/CO2 reduction to methanol

Ultralow Ru-assisted and vanadium-doped flower-like CoP/Ni₂P heterostructure for efficient water splitting in alkali and seawater

Multiple crystallization pathways of amorphous calcium carbonate in the presence of poly(aspartic acid) with a chain length of 30

Operando X-ray absorption spectroscopic studies of the carbon dioxide reduction reaction in a modified flow cell

Bioprocess inspired formation of calcite mesocrystals by cation-mediated particle attachment mechanism

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Wen-Yang Huang

In-situ spectroscopic probe of the intrinsic structure feature of single-atom center in electrochemical CO/CO2 reduction to methanol

Ultralow Ru-assisted and vanadium-doped flower-like CoP/Ni2P heterostructure for efficient water splitting in alkali and seawater

Multiple crystallization pathways of amorphous calcium carbonate in the presence of poly(aspartic acid) with a chain length of 30

Operando X-ray absorption spectroscopic studies of the carbon dioxide reduction reaction in a modified flow cell

Bioprocess inspired formation of calcite mesocrystals by cation-mediated particle attachment mechanism

Contact Info

Product

Resources

About

Ultralow Ru-assisted and vanadium-doped flower-like CoP/Ni₂P heterostructure for efficient water splitting in alkali and seawater