王文龙教授
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- [21] 贾平山. A feasible recycling route for spent graphite: Microwave-assisted puffing with Fe2O3 loading to construct high-performance anode for lithium-ion batteries. Materials Today Sustainability, 2025.
- [22] 陈文鑫. A Strategy for Anode Recovery and Upgrading by In Situ Growth of Iron-Based Oxides on Microwave Puffed Graphite. MOLECULES, 3219, 2024.
- [23] 宋占龙. 含油污泥辐射热解传热模拟及能量分析. 环境工程, 2024.
- [24] 宋占龙. Swelling effect on the microwave pyrolysis of waste car tires. JOURNAL OF APPLIED POLYMER SCIENCE?, 141, 2023.
- [25] 宋占龙. Pyrolysis characteristics and product distribution of oil sludge based on radiant heating. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 2024.
- [26] 张宝旭. High conversion of H2S to H2 and S via a robust microwave-induced discharge plasma. Journal of Cleaner Production, 435, 2024.
- [27] 张晓嵘. Co3O4-CeO2 for enhanced syngas by low-temperature methane conversion with CO2 utilization via a catalytic chemical looping process. Fuel Processing Technology, 245, 2023.
- [28] 张富森. Promotion of microwave discharge over carbon catalysts for CO2 reforming of CH4 to syngas. Fuel, 331, 2023.
- [29] 宋占龙. Research on CH4-CO2 reforming over Ni-Fe catalyst enhanced by electric field. JOURNAL OF CO2 UTILIZATION, 65, 2022.
- [30] 宋占龙. Effect of swelling pretreatment by coal tar on the microwave pyrolysis of waste tires. Journal of Environmental Chemical Engineering, 11, 2023.
- [31] 姚连升. ReaxFF MD simulation of microwave catalytic pyrolysis of polypropylene over Fe catalyst for hydrogen. Fuel, 340, 2023.
- [32] 姚连升. Microwave-assisted decomposition of waste plastic over Fe/FeAl2O4 to produce hydrogen and carbon nanotubes. Journal of Analytical and Applied Pyrolysis, 165, 2022.
- [33] 张晓嵘. Review of chemical looping process for carbonaceous feedstock Conversion: Rational design of oxygen carriers. Fuel, 325, 2022.
- [34] 李敬伟. Thermal co-treatment of aluminum dross and municipal solid waste incineration fly ash: Mineral transformation, crusting prevention, detoxification, and low-carbon cementitious material preparation. Journal of Environmental Management, 329, 2023.
- [35] 刘延慧. Study of a coal fly ash-based integrated CO2 capture-mineralization material: Preparation method, modification mechanism, and CO2 mineralization property. Science of The Total Environment, 955, 2024.
- [36] 肖心. Reuse of by-product gypsum with solid wastes-derived sulfoaluminate cement modification for the preparation of self-leveling mortar and influence mechanism of H3PO4. CONSTRUCTION AND BUILDING MATERIALS, 411, 2024.
- [37] 肖心. Effect of phosphorus impurities on sulfoaluminate cement-modified gypsum-based self-leveling mortar and improvement method. CONSTRUCTION AND BUILDING MATERIALS, 442, 2024.
- [38] 侯祥山. Experimental Study of Sulfoaluminate Cement-Based Rapid Repair Mortar Undergoing Hot/Wet Harsh Conditions: Mechanical Strengths, Hydration Products, and Ettringite Evolution Mechanism. ACS Sustainable Chemistry & Engineering, 12, 2024.
- [39] 李敬伟. Influencing factors and optimization on mechanical performance of solid waste-derived rapid repair mortar. Waste Disposal & Sustainable Energy, 5, 2023.
- [40] 李敬伟. Emission characteristics of condensable particulate matter during the production of solid waste-based sulfoaluminate cement: Compositions, heavy metals, and preparation impacts. Chemosphere, 355, 2024.