Yalong Shao scite author profile

The development of highly active electrocatalysts is essential to the commercialization of water splitting. Introducing ligand of foreign metals is a promising approach to optimize the electronic structure of electrocatalyst and regulate chemisorption behavior of intermediate species.Herein, Ru(OH) x Cl y cluster−modified CoNi alloy nanoparticles encapsulated in nitrogen-doped graphene (Ru-CoNi@NC-X) was prepared by a partial galvanic replacement method. The electrochemical results indicated that a moderated Ru(OH) x Cl y cluster was beneficial to improve the both oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) properties of CoNi alloy nanoparticles (CoNi@NC).

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Defect-rich MoS /carbon nanofiber arrays on carbon cloth for highly efficient electrocatalytic hydrogen evolution

Guo

Wang

Zeng

et al. 2018

International Journal of Hydrogen Energy

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Sub‐Nanometer‐Sized Iridium Species Decorated on Mesoporous Co₃O₄ for Electrocatalytic Oxygen Evolution

Wang

Shao

et al. 2019

ChemElectroChem

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Optimizing the surface structure at the atomic scale is crucial for developing effective catalysts. In this work, a hybrid material consisting of well-dispersed sub-nanometer-sized (SNS) iridium (Ir) species decorated on mesoporous Co 3 O 4 was fabricated as electrocatalyst for the oxygen evolution reaction (OER) through pyrolysis of IrCl 3 /Co(NO 3 ) 2 complexes confined within the mesoporous KIT-6 template. It was found that the KIT-6 template played a critical role in the formation of SNS Ir species. The optimized IrÀ Co 3 O 4 -1 showed highly efficient OER catalytic performance with an overpotential of 1.527 V to achieve the current density of 10 mA cm À 2 , and superior stability in alkaline condition. The electrochemical results demonstrated that moderate Ir incorporation was conductive to form the high valence Co ions in form of Co oxyhydroxide during the OER process. The present work would open a new route for material design of SNS Ir species decorated mesoporous metal oxides for the application in catalysis.

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Synthesis of Ru‐Doped VN by a Soft‐Urea Pathway as an Efficient Catalyst for Hydrogen Evolution

et al. 2020

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Unraveling the effect of metal doping on the intrinsic activity of metal nitride remains a grand challenge. Herein, Ru (Rh)‐doped vanadium nitride are successfully synthesized via a simple soft‐urea pathway. In comparison, the Ru‐doped VN electrocatalyst exhibits much better HER performance than Rh‐doped VN electrocatalysts. The optimal Ru‐VN catalyst delivers a low overpotential of 134 (144) mV at current density of 10 mA cm−2, and a low Tafel slope of 35 (73) mV dec−1 in acidic (alkaline) condition. Such excellent performance can be attributed to the unique synergetic effect between Ru and VN. Moreover, moderate Ru dopant can effectively promote the HER kinetics of VN, resulting in mechanism transformation of hydrogen evolution from Volmer‐Heyrovsky to Volmer‐Tafel route, especially in acidic condition. This simple and facile strategy can be utilized to fabricate a series of Ru‐doped nitrides, which can be applied in energy conversion fields.

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Yalong Shao

Synthesis of Cobalt–Glycerate hierarchical structure and their conversion into hierarchical CoP nanospheres for the hydrogen evolution reaction

Oxide Passivated CoNi@NC-Supported Ru(OH)_xCl_y Cluster as Highly Efficient Catalysts for the Oxygen and Hydrogen Evolution

Defect-rich MoS /carbon nanofiber arrays on carbon cloth for highly efficient electrocatalytic hydrogen evolution

Sub‐Nanometer‐Sized Iridium Species Decorated on Mesoporous Co₃O₄ for Electrocatalytic Oxygen Evolution

Synthesis of Ru‐Doped VN by a Soft‐Urea Pathway as an Efficient Catalyst for Hydrogen Evolution

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Yalong Shao

Synthesis of Cobalt–Glycerate hierarchical structure and their conversion into hierarchical CoP nanospheres for the hydrogen evolution reaction

Oxide Passivated CoNi@NC-Supported Ru(OH)xCly Cluster as Highly Efficient Catalysts for the Oxygen and Hydrogen Evolution

Defect-rich MoS /carbon nanofiber arrays on carbon cloth for highly efficient electrocatalytic hydrogen evolution

Sub‐Nanometer‐Sized Iridium Species Decorated on Mesoporous Co3O4 for Electrocatalytic Oxygen Evolution

Synthesis of Ru‐Doped VN by a Soft‐Urea Pathway as an Efficient Catalyst for Hydrogen Evolution

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Product

Resources

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Oxide Passivated CoNi@NC-Supported Ru(OH)_xCl_y Cluster as Highly Efficient Catalysts for the Oxygen and Hydrogen Evolution

Sub‐Nanometer‐Sized Iridium Species Decorated on Mesoporous Co₃O₄ for Electrocatalytic Oxygen Evolution