Yaotian Yan scite author profile

Developing low‐cost and high‐efficiency catalysts for sustainable hydrogen production through electrocatalytic hydrogen evolution reaction (HER) is crucial yet remains challenging. Here, a strategy is proposed to fill Ni‐vacancy (Niv) sites of dual‐deficient NiO (D‐NiO‐Pt) deliberately created by Ar plasma with homogeneously distributed Pt atoms driven by oxygen vacancies (Ov). The incorporated Pt atoms filling the Niv reduce the formation energy to increase crystal stability, and subsequently combine with additional Ov to tune the electronic structure of the surrounding Ni sites. Thus, a more ideal hydrogen adsorption free energy (ΔGH*) closer to 0 of Ni sites and Pt sites can be achieved. As a result, the D‐NiO‐Pt electrode achieves superior mass activity of ≈1600 mA mg−1 (normalized by platinum) and nearly negligible loss of activity during long‐term operation, which is much better than as‐prepared Pt‐containing NiO catalysts without plasma treatment. A low overpotential of 20 mV is required for the D‐NiO‐Pt at 10 mA cm−2 in alkaline HER, outperforming that of the commercial Pt/C. In addition, the universal access to the other Ni‐based compounds including nickel phosphide (Ni2P), nickel sulfide (Ni0.96S), and nickel selenide (NiSe2) is also demonstrated by employing a vacancy‐driven Pt filling mechanism.

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Activating and optimizing the activity of NiCoP nanosheets for electrocatalytic alkaline water splitting through the V doping effect enhanced by P vacancies

Yan

et al. 2019

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Nanoarchitectured Design of Vertical‐Standing Arrays for Supercapacitors: Progress, Challenges, and Perspectives

Yan

Cai

et al. 2020

Adv Funct Materials

171

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Vertical-standing arrays have aroused great enthusiasm as electrode materials for supercapacitors in recent years owing to their structural and compositional characteristics. Although significant efforts have been made in the construction of vertical-standing arrays with tailored compositions and architectures, an in-depth understanding of the relevant structure-activity relationships has not yet been reviewed in detail. Herein, recent important progress in controllably synthesizing vertical-standing arrays as well as their application as supercapacitors is reviewed. Afterward, promising strategies to improve the electrochemical performance of vertical-standing arrays are discussed. Finally, the challenges and possible directions for developing vertical-standing arrays with outstanding performance are outlined. This review provides important guidelines for designing and regulating verticalstanding arrays and constructing desirable electrode materials for future electrochemical energy storage.

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Bifunctional Electrocatalysts Based on Mo-Doped NiCoP Nanosheet Arrays for Overall Water Splitting

et al. 2019

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Core-branched CoSe₂/Ni_0.85Se nanotube arrays on Ni foam with remarkable electrochemical performance for hybrid supercapacitors

et al. 2018

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Yaotian Yan

Atomic‐Level Platinum Filling into Ni‐Vacancies of Dual‐Deficient NiO for Boosting Electrocatalytic Hydrogen Evolution

Activating and optimizing the activity of NiCoP nanosheets for electrocatalytic alkaline water splitting through the V doping effect enhanced by P vacancies

Nanoarchitectured Design of Vertical‐Standing Arrays for Supercapacitors: Progress, Challenges, and Perspectives

Bifunctional Electrocatalysts Based on Mo-Doped NiCoP Nanosheet Arrays for Overall Water Splitting

Core-branched CoSe₂/Ni_0.85Se nanotube arrays on Ni foam with remarkable electrochemical performance for hybrid supercapacitors

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Yaotian Yan

Atomic‐Level Platinum Filling into Ni‐Vacancies of Dual‐Deficient NiO for Boosting Electrocatalytic Hydrogen Evolution

Activating and optimizing the activity of NiCoP nanosheets for electrocatalytic alkaline water splitting through the V doping effect enhanced by P vacancies

Nanoarchitectured Design of Vertical‐Standing Arrays for Supercapacitors: Progress, Challenges, and Perspectives

Bifunctional Electrocatalysts Based on Mo-Doped NiCoP Nanosheet Arrays for Overall Water Splitting

Core-branched CoSe2/Ni0.85Se nanotube arrays on Ni foam with remarkable electrochemical performance for hybrid supercapacitors

Contact Info

Product

Resources

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Core-branched CoSe₂/Ni_0.85Se nanotube arrays on Ni foam with remarkable electrochemical performance for hybrid supercapacitors