Zhaolei Meng scite author profile

Zhaolei Meng

4Publications

7Citation Statements Received

23Citation Statements Given

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Affiliations

Inner Mongolia University of Science and Technology, University of Science and Technology Beijing

Publications

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Three-Dimensional MoS₂/Graphene Hybrid Aerogel as Free-Standing, High-Performance Electrode for Supercapacitor

Meng

He²,

Han

et al. 2020

NANO

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Carbon materials are generally employed as supercapacitor electrodes due to their low- cost, high-chemical stability and environmental friendliness. However, the design of carbon structures with large surface area and controllable porous structure remains a daunt challenge. In this work, a three-dimensional (3D) hybrid aerogel with different contents of MoS2 nanosheets in 3D graphene aerogel (MoS2-GA) was synthesized through a facial hydrothermal process. The influences of MoS2 content on microstructure and subsequently on electrochemical properties of MoS2-GA are systematically investigated and an optimized mass ratio with MoS2: GA of 1:2 is chosen to achieve high mechanical robustness and outstanding electrochemical performance in the hybrid structure. Due to the large specific surface area, porous structure and continuous charge transfer network, such MoS2-GA electrodes exhibit high specific capacitance, good rate capability and excellent cyclic stability, showing great potential in large-scale and low-cost fabrication of high-performance supercapacitors.

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Study on denitration performance of mineral catalyst prepared by high energy ball milling of rare earth concentrate supported Fe2O3 for NH3-SCR

Meng

Yan

Cui

et al. 2022

Materials Chemistry and Physics

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Prepare a catalyst consist of rare earth minerals to denitrate via NH3-SCR

Wang

Zhu

Li³

et al. 2020

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AbstractTo research the roles of rare earth minerals in denitrification via the NH3-SCR, a mixture was made by certain ratio of rare earth concentrates and rare earth tailings, then treated by microwave roasting, and acids and bases to form a denitrification catalyst. The mineral phase structure and surface morphology of the catalyst were characterized by XRD, BET, SEM and EDS. The surface properties of the catalyst were tested by TPD and XPS methods, and the denitrification activity of the catalyst was evaluated in a denitrification reactor. The results showed that the denitrification efficiency increased up to 82% with complete processing. XRD, BET, SEM, and EDS spectrum analysis stated that the treated minerals contained cerium oxides and Fe−Ce composite oxides. The surface of the modified minerals became rough and porous, the surface area increased, and the surface-active sites were exposed. The results of NH3-TPD and NO-TPD showed that the catalyst surface could gradually adsorb more NH3 and NO after each step. XPS analysis indicated that there were more Ce3+, Fe2+, and lattice oxygen in rare earth minerals catalyst after each treatment step.

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Comparative Study on NH₃-SCR of High Entropy Mineral Catalytic Materials for Different Ratios of Rare Earth Concentrate/Rare Earth Tailing

Meng

Zhu

Wang

et al. 2020

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A series of high-entropy mineral catalytic materials were obtained by mixing rare earth tailings containing Fe oxide and rare earth concentrate rich in Ce in Baiyun Obo in different proportions, and by acid-base leaching and microwave roasting. The effects of different proportions of mixed rare earth minerals on the denitrification activity of the samples were analyzed by various techniques, including XRD, EDS and SEM. The mineral phase structure and surface morphology of the catalysts were analyzed. The surface properties of the samples were tested by TPD and XPS methods. The denitrification activity of the sample was simultaneously evaluated and compared in the microreactor. The results show that the denitration efficiency of the active powder is the best when the mixing ratio of rare earth tailings/rare earth concentrate is 1:1, the denitration rate can reach 82%. In summary, different proportions of optimization are extremely effective methods to improve catalyst performance.

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Zhaolei Meng

Three-Dimensional MoS₂/Graphene Hybrid Aerogel as Free-Standing, High-Performance Electrode for Supercapacitor

Study on denitration performance of mineral catalyst prepared by high energy ball milling of rare earth concentrate supported Fe2O3 for NH3-SCR

Prepare a catalyst consist of rare earth minerals to denitrate via NH3-SCR

Comparative Study on NH₃-SCR of High Entropy Mineral Catalytic Materials for Different Ratios of Rare Earth Concentrate/Rare Earth Tailing

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Zhaolei Meng

Three-Dimensional MoS2/Graphene Hybrid Aerogel as Free-Standing, High-Performance Electrode for Supercapacitor

Study on denitration performance of mineral catalyst prepared by high energy ball milling of rare earth concentrate supported Fe2O3 for NH3-SCR

Prepare a catalyst consist of rare earth minerals to denitrate via NH3-SCR

Comparative Study on NH3-SCR of High Entropy Mineral Catalytic Materials for Different Ratios of Rare Earth Concentrate/Rare Earth Tailing

Contact Info

Product

Resources

About

Three-Dimensional MoS₂/Graphene Hybrid Aerogel as Free-Standing, High-Performance Electrode for Supercapacitor

Comparative Study on NH₃-SCR of High Entropy Mineral Catalytic Materials for Different Ratios of Rare Earth Concentrate/Rare Earth Tailing