Strain and interfacial engineering to accelerate hydrogen evolution reaction of two-dimensional phosphorus carbide*

Huang, Tao; Si, Yuan; Wu, Hongyu; Xia, Lixin; Lan, Yu; Huang, Wei‐Qing; Hu, Wangyu; Huang, Gui‐Fang

doi:10.1088/1674-1056/abbbe7

Chinese Phys. B

2021

DOI: 10.1088/1674-1056/abbbe7

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Strain and interfacial engineering to accelerate hydrogen evolution reaction of two-dimensional phosphorus carbide*

Tao Huang

Yuan Si

Hongyu Wu

et al.

Abstract: Hydrogen, regarded as a promising energy carrier to alleviate the current energy crisis, can be generated from hydrogen evolution reaction (HER), whereas its efficiency is impeded by the activity of catalysts. Herein, effective strategies, such as strain and interfacial engineering, are imposed to tune the catalysis performance of novel two-dimensional (2D) phosphorus carbide (PC) layers using first-principle calculations. The findings show that P site in pristine monolayer PC (ML-PC) exhibits higher HER perfo… Show more

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Correlation between spin state and activity for hydrogen evolution of PtN2 monolayer

Zhang,

Li,

Huang

et al. 2024

Applied Physics Letters

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Spin plays a key role in physical and chemical reactions, such as oxygen evolution and hydrogen evolution reactions (OER/HER), but the spin–activity correlation has remained unclear. Based on a transition metal (TM)-doped PtN2 monolayer model with a well-defined spin center as an adsorption site, we here reveal that only an active spin state can enhance the strength of hydrogen adsorption, while an inert spin state offers very little influence. Specifically, the an unpaired electron along the out-of-plane direction such as in the dz2 orbital, acting as an active spin state, will strongly hybridize with hydrogen, resulting in enhanced hydrogen binding energy because the dz2 orbital is just enough to accommodate two electrons to form a bonding orbital. While the in-plane unpaired electron such as in the dx2−y2 orbital plays a negligible role in an adsorbing hydrogen atom. This is verified by a series of single atom catalysts comprising of PtN2 monolayer by replacing a Pt atom with a TM (Fe, Co, Ni, Ru, Rh, Pd, Os, or Ir) atom or subsequent adsorbing a Cl atom. One of the most promising materials is Pd@PtN2-Cl that offers superior HER activity, even better than pure Pt. This work uncovers the nature of spin–activity correlation, thus paving the way for the design of high-performance catalysts through spin-engineering.

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Correlation between spin state and activity for hydrogen evolution of PtN2 monolayer

Zhang,

Li,

Huang

et al. 2024

Applied Physics Letters

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show abstract

Symmetry-Breaking-Induced Multifunctionalities of Two-Dimensional Chromium-Based Materials for Nanoelectronics and Clean Energy Conversion

Huang

Liang

et al. 2022

Phys. Rev. Applied

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Strain and interfacial engineering to accelerate hydrogen evolution reaction of two-dimensional phosphorus carbide*

Cited by 2 publications

References 45 publications

Correlation between spin state and activity for hydrogen evolution of PtN2 monolayer

Correlation between spin state and activity for hydrogen evolution of PtN2 monolayer

Symmetry-Breaking-Induced Multifunctionalities of Two-Dimensional Chromium-Based Materials for Nanoelectronics and Clean Energy Conversion

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