Dezhi Xiao scite author profile

The development of earth-abundant transition-metalbased electrocatalysts with bifunctional properties (oxygen evolution reaction (OER) and hydrogen evolution reaction (HER)) is crucial to commercial hydrogen production. In this work, layered double hydroxide (LDH)-zinc oxide (ZnO) heterostructures and oxygen vacancies are constructed synchronously by plasma magnetron sputtering of NiFe-LDH. Using the optimal conditions, ZnO nanoparticles are uniformly distributed on the NiFe-LDH nanoflowers, which are prepared uniformly on the three-dimensional porous Ni foam. In the LDH-ZnO heterostructures and oxygen vacancies, electrons are depleted at the Ni cations on the NiFe-LDH surface and the active sites change from Fe cations to Ni cations during OER. Our theoretical assessment confirms the change of active sites after the deposition of ZnO and reveals the chargetransfer mechanism. Owing to the significant improvement in the OER dynamics, overall water splitting can be achieved at only 1.603 V in 1 M KOH when the Ni/LDH-ZnO and Ni/LDH are used as the anode and cathode, respectively. The work reveals a novel design of self-supported catalytic electrodes for efficient water splitting and also provides insights into the surface modification of catalytic materials.

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Characteristics of atmospheric-pressure non-thermal N₂ and N₂/O₂ gas mixture plasma jet

Xiao

Cheng

Shen

et al. 2014

Journal of Applied Physics

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An atmospheric-pressure non-thermal plasma jet driven by high frequency alternating current and operating on N 2 and N 2 /O 2 gas mixture is investigated. The plasma jet can reach 55 mm in length at a gas flow rate of 2500 l/h. The gas temperature at a distance of 4 mm from the nozzle is close to room temperature. Optical emission spectroscopy is employed to investigate the important plasma parameters such as the excited species, rotational temperature, vibrational temperature, and excitation temperature under different discharge conditions. The results show that the plasma source operates under non-equilibrium conditions. The absolute irradiance intensity of the vibrational band N 2 (C-B) in the active region is measured. Taking into account the irradiance intensity of N 2 (C-B,0-0) and N 2 (B-X,0-0) as well as measured current, the electron density, which is determined by considering direct and step-wise electron impact excitation of nitrogen emission, reaches a maximum value of 5.6 Â 10 20 /m 3. V

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Effects of Ion Energy and Density on the Plasma Etching‐Induced Surface Area, Edge Electrical Field, and Multivacancies in MoSe₂ Nanosheets for Enhancement of the Hydrogen Evolution Reaction

Xiao

Ruan

Bao

et al. 2020

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Plasma functionalization can increase the efficiency of MoSe2 in the hydrogen evolution reaction (HER) by providing multiple species but the interactions between the plasma and catalyst are not well understood. In this work, the effects of the ion energy and plasma density on the catalytic properties of MoSe2 nanosheets are studied. The through‐holes resulting from plasma etching and multi‐vacancies induced by plasma‐induced damage enhance the HER efficiency as exemplified by a small overpotential of 148 mV at 10 mA cm–2 and Tafel slope of 51.6 mV dec–1 after the plasma treatment using a power of 20 W. The interactions between the plasma and catalyst during etching and vacancies generation are evaluated by plasma simulation. Finite element and first‐principles density functional theory calculations are also conducted and the results are consistent with the experimental results, indicating that the improved HER catalytic activity stems from the enhanced electric field and more active sites on the catalyst, and reduced bandgap and adsorption energy arising from the etched through‐holes and vacancies, respectively. The results convey new fundamental knowledge about the plasma effects and means to enhance the efficiency of catalysts in water splitting as well insights into the design of high‐performance HER catalysts.

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Construction of intumescent flame retardant and antimicrobial coating on cotton fabric via layer-by-layer assembly technology

Fang

Xiao

Zhang

et al. 2015

Surface and Coatings Technology

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Dezhi Xiao

NiFe-Layered Double Hydroxide Synchronously Activated by Heterojunctions and Vacancies for the Oxygen Evolution Reaction

Characteristics of atmospheric-pressure non-thermal N₂ and N₂/O₂ gas mixture plasma jet

Effects of Ion Energy and Density on the Plasma Etching‐Induced Surface Area, Edge Electrical Field, and Multivacancies in MoSe₂ Nanosheets for Enhancement of the Hydrogen Evolution Reaction

Construction of intumescent flame retardant and antimicrobial coating on cotton fabric via layer-by-layer assembly technology

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Dezhi Xiao

NiFe-Layered Double Hydroxide Synchronously Activated by Heterojunctions and Vacancies for the Oxygen Evolution Reaction

Characteristics of atmospheric-pressure non-thermal N2 and N2/O2 gas mixture plasma jet

Effects of Ion Energy and Density on the Plasma Etching‐Induced Surface Area, Edge Electrical Field, and Multivacancies in MoSe2 Nanosheets for Enhancement of the Hydrogen Evolution Reaction

Construction of intumescent flame retardant and antimicrobial coating on cotton fabric via layer-by-layer assembly technology

Contact Info

Product

Resources

About

Characteristics of atmospheric-pressure non-thermal N₂ and N₂/O₂ gas mixture plasma jet

Effects of Ion Energy and Density on the Plasma Etching‐Induced Surface Area, Edge Electrical Field, and Multivacancies in MoSe₂ Nanosheets for Enhancement of the Hydrogen Evolution Reaction