Yuxuan Wang scite author profile

Yuxuan Wang

2Publications

25Citation Statements Received

216Citation Statements Given

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139

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Affiliations

Johns Hopkins University, Xiamen University

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Monolayer MSi₂P₄ (M = V, Nb, and Ta) as Highly Efficient Sulfur Host Materials for Lithium–Sulfur Batteries

Wang

Cao

et al. 2022

ACS Appl. Mater. Interfaces

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Despite the high capacity and low cost of lithium–sulfur (Li–S) batteries, their commercialization is greatly blocked by multiple bottlenecks including the shuttle effect of lithium polysulfides (LiPSs), poor conductivity of sulfur, and sluggish reaction kinetics. Herein, we propose novel two-dimensional MSi2P4 (M = V, Nb, and Ta) monolayers as promising sulfur hosts to improve the Li–S battery performance. Our calculations show that MSi2P4 monolayers offer moderate binding strengths to the polysulfides, which are expected to effectively inhibit the LiPS shuttling and dissolution. Moreover, the conductive properties of the MSi2P4 systems are well maintained after LiPS adsorption, eliminating the insulating nature of sulfur species. Remarkably, MSi2P4 monolayers exhibit superior electrocatalytic activity for the sulfur reduction reaction and the Li2S decomposition reaction, which considerably lowers the energy barriers of LiPS conversions during discharge and charge, thus ensuring the fast redox kinetics and high sulfur utilization of Li–S batteries. This study pioneers the application of MSi2P4 monolayers as highly efficient sulfur host materials for Li–S batteries and affords insights for further development of advanced Li–S batteries.

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CO electroreduction on single-atom copper

Wang

Xue

et al. 2023

Sci. Adv.

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Electroreduction of carbon dioxide (CO 2 ) or carbon monoxide (CO) toward C 2+ hydrocarbons such as ethylene, ethanol, acetate and propanol represents a promising approach toward carbon-negative electrosynthesis of chemicals. Fundamental understanding of the carbon─carbon (C-C) coupling mechanisms in these electrocatalytic processes is the key to the design and development of electrochemical systems at high energy and carbon conversion efficiencies. Here, we report the investigation of CO electreduction on single-atom copper (Cu) electrocatalysts. Atomically dispersed Cu is coordinated on a carbon nitride substrate to form high-density copper─nitrogen moieties. Chemisorption, electrocatalytic, and computational studies are combined to probe the catalytic mechanisms. Unlike the Langmuir-Hinshelwood mechanism known for copper metal surfaces, the confinement of CO adsorption on the single-copper-atom sites enables an Eley-Rideal type of C-C coupling between adsorbed (*CO) and gaseous [CO(g)] carbon moxide molecules. The isolated Cu sites also selectively stabilize the key reaction intermediates determining the bifurcation of reaction pathways toward different C 2+ products.

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Yuxuan Wang

Monolayer MSi₂P₄ (M = V, Nb, and Ta) as Highly Efficient Sulfur Host Materials for Lithium–Sulfur Batteries

CO electroreduction on single-atom copper

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Yuxuan Wang

Monolayer MSi2P4 (M = V, Nb, and Ta) as Highly Efficient Sulfur Host Materials for Lithium–Sulfur Batteries

CO electroreduction on single-atom copper

Contact Info

Product

Resources

About

Monolayer MSi₂P₄ (M = V, Nb, and Ta) as Highly Efficient Sulfur Host Materials for Lithium–Sulfur Batteries