Yinlong Zhou scite author profile

Yinlong Zhou

4Publications

44Citation Statements Received

93Citation Statements Given

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171

Affiliations

Anhui University, Hefei University

Publications

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In-Situ Synthesis of Petal-Like MoO₂@MoN/NF Heterojunction As Both an Advanced Binder-Free Anode and an Electrocatalyst for Lithium Ion Batteries and Water Splitting

Sun

Zhou

Zhu

et al. 2019

ACS Sustainable Chem. Eng.

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The design and synthesis of a heterostructure as well as binder-free electrodes or electrocatalysts with a porous nanostructure for enhancing electrochemical performance of lithium ion batteries and water splitting are still significant challenges to scientists. Here, for the first time, an in-situ synthesis of the porous petal-like MoN nanolayer-coated MoO2 heterojunction (MoO2@MoN) on commercial nickel foam (NF) by a localized nitrided transformation method as both a binder-free electrode for LIBs and an electrocatalyst for water splitting was performed. The in-situ formation of the MoN nanolayer could create a MoO2@MoN heterostructure, therefore enhancing the electronic conductivity and the electron/ion transfer. The XRD and XPS measurements confirmed the wonderful reversibility of the MoN layer during lithiation/delithiation cycling, which effectively promoted the long-life cycling performance (1190.1 mA h g–1 after 500 cycles at the current density of 0.5 A g–1). Meanwhile, the MoO2@MoN/NF/LiFePO4 full cell displayed stable capacity after 100 cycles. Moreover, the product also showed the improved electrocatalytic activity for hydrogen evolution and oxygen evolution. The excellent results suggest that our work opens a simple in-situ heterojunction formation pathway for the synthesis of other multifunctional materials applied in energy conversion and storage.

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A structurally precise Ag_xAu_25−x nanocluster based cancer theranostic platform with tri-targeting/in situ O₂-generation/aggregation enhanced fluorescence imaging/photothermal–photodynamic therapies

et al. 2020

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Novel porous FexCyNz/N-doped CNT nanocomposites with excellent bifunctions for catalyzing oxygen reduction reaction and absorbing electromagnetic wave

Zhou

Miao

Shen

et al. 2018

Applied Surface Science

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Structurally accurate lipophilic Pt1Ag28 nanoclusters based cancer theranostic micelles for dual-targeting/aggregation enhanced fluorescence imaging and photothermal/photodynamic therapies

Yang

Wang

Zhou

et al. 2020

Colloids and Surfaces B: Biointerfaces

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Yinlong Zhou

In-Situ Synthesis of Petal-Like MoO₂@MoN/NF Heterojunction As Both an Advanced Binder-Free Anode and an Electrocatalyst for Lithium Ion Batteries and Water Splitting

A structurally precise Ag_xAu_25−x nanocluster based cancer theranostic platform with tri-targeting/in situ O₂-generation/aggregation enhanced fluorescence imaging/photothermal–photodynamic therapies

Novel porous FexCyNz/N-doped CNT nanocomposites with excellent bifunctions for catalyzing oxygen reduction reaction and absorbing electromagnetic wave

Structurally accurate lipophilic Pt1Ag28 nanoclusters based cancer theranostic micelles for dual-targeting/aggregation enhanced fluorescence imaging and photothermal/photodynamic therapies

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Yinlong Zhou

In-Situ Synthesis of Petal-Like MoO2@MoN/NF Heterojunction As Both an Advanced Binder-Free Anode and an Electrocatalyst for Lithium Ion Batteries and Water Splitting

A structurally precise AgxAu25−x nanocluster based cancer theranostic platform with tri-targeting/in situ O2-generation/aggregation enhanced fluorescence imaging/photothermal–photodynamic therapies

Novel porous FexCyNz/N-doped CNT nanocomposites with excellent bifunctions for catalyzing oxygen reduction reaction and absorbing electromagnetic wave

Structurally accurate lipophilic Pt1Ag28 nanoclusters based cancer theranostic micelles for dual-targeting/aggregation enhanced fluorescence imaging and photothermal/photodynamic therapies

Contact Info

Product

Resources

About

In-Situ Synthesis of Petal-Like MoO₂@MoN/NF Heterojunction As Both an Advanced Binder-Free Anode and an Electrocatalyst for Lithium Ion Batteries and Water Splitting

A structurally precise Ag_xAu_25−x nanocluster based cancer theranostic platform with tri-targeting/in situ O₂-generation/aggregation enhanced fluorescence imaging/photothermal–photodynamic therapies