个人简介
黄鑫,工学博士,副教授,热能与动力工程系副主任。日本九州大学工学博士,师从先导物质化学研究所所长林润一郎教授。在LGO相关热化学转化工艺、催化剂开发及密度泛函理论计算等方面进行了系统研究。从事生物质高值化利用、CO2利用、理论计算等研究工作。在Energy、Fuel、Ind. Crops. Prod.、Fuel Process. Technol.、ACS Sustainable Chem. Eng.、J. Anal. Appl. Pyrolysis、J. Phys. Chem. A等共发表SCI、EI论文54篇,其中第一/通讯作者论文23篇(2篇入选ESI高被引论文),论文被引用1400余次,单篇最高引用247次(一作),H-index指数23,担任《洁净煤技术》青年编委、《Catalysts》(JCR二区)客座编辑,参加国际/内学术会议并多次做口头报告,DeCarbon国际会议分会场主席,获2022年中国工程热物理学会燃烧学学术年会优秀论文奖(10/267篇)。
主持国家自然科学基金、中国博士后科学基金、重庆市自然科学基金、重庆市留学人员回国创业创新支持计划等系列国家/省部级项目,企业横向项目经费超100万元。获2022年中国工程热物理学会燃烧学学术年会“优秀论文”奖。担任国家自然科学基金、教育部学位与研究生发展教育中心评审专家、《洁净煤技术》青年编委。指导本科生年全国大学生节能减排大赛一等奖、二等奖。
研究领域
面向碳中和的新能源转化与利用技术
绿色制氢技术(焦耳热、生物质、醇类)
生物质精炼技术(热化学多联产、高值化学品)
CO2高效转化技术(热/等离子体、催化剂构筑)
工艺模拟(技术经济分析、生命周期评价)
理论计算(密度泛函、分子动力学)
近期论文
查看导师新发文章
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1. Qin H, Huang X*, Yu F, Shao Y, et al., Characterization of biomass fractionation by sequential hydrolysis in a flow-through reactor. Industrial Crops and Products, 2025 229: 121053.
2. Huang X*, Tang G, Tang L, et al. Performances and Mechanisms of Dehydration of Levoglucosan to Levoglucosenone over Cesium Heterpolyacid Salts, Energy Fuels 2024, 38, 20: 19668–19675.
3. Tang G, Huang X*, H Qin, et al. Hydrolysis of levoglucosan to 5-hydroxymethylfurfural in a biphasic system. Industrial Crops and Products, 2024, 216: 118714.
4. Xu A, Huang X*, Tang G, et al. Levoglucosenone production by catalytic fast pyrolysis of cellulose mixed with alkali metal-doped Keggin heterpolyacid salt. Fuel Processing Technology, 2023, 242: 107609.
5. Huang X, Ran Z, He Z, et al. Mercury removal over Ce-doped LaCoO3 supported on CeO2 at low temperatures from coal combustion flue gas. Fuel, 2023, 346: 128350.
6. Tang L, Ran J*, Bu X, Huang X*, et al. Effect of Pd doping on CH4 oxidation mechanism over Pt clusters: A systematic DFT study. Molecular Catalysis, 2023, 546: 113208.
7. Tang G, Huang X*, Xu A, et al. Continuous production of levoglucosenone from levoglucosan over SO3H functionalized resin. Industrial Crops and Products, 2022, 189: 115777.
8. Huang X*, Yang Z*, Qiu J, et al. Ethylene production over A/B-site doped BaCoO3 perovskite by chemical looping oxidative dehydrogenation of ethane. Fuel, 2022, 327: 125210.
9. Tang L, Huang X*, Ran J*, et al. Density functional theory studies on direct and oxygen assisted activation of C–H bond for dry reforming of methane over Rh–Ni catalyst. International Journal of Hydrogen Energy, 2022, 47(71): 30391-30403.
10. Huang X*, Bu X, Ran J, et al. Density Functional Theory Studies on the Hydrolysis of Levoglucosenone to 5-Hydroxymethylfurfural. The Journal of Physical Chemistry A, 2022, 126(26): 4248-4254.
11. Huang X*, Ren J, Ran J, et al. Recent advances in pyrolysis of cellulose to value-added chemicals. Fuel Processing Technology, 2022, 229: 107175.
12. 徐安邦, 黄鑫*, 冉景煜, 等. 离子液体催化热解纤维素制备左旋葡萄糖酮的研究. 燃料化学学报, 2022, 50(6):768-776.
13. Huang X*, Xu A, Bu X, et al. Improved conversion of levoglucosenone into 5-hydroxymethylfurfural in a biphasic system. Biomass Conversion and Biorefinery, 2022,12: 3503–3511.
14. Huang X, Mitsuyama D, Kudo S, et al. Fast synthesis of hydroxymethylfurfural from levoglucosenone by mixing with sulphuric acid and heating in a microtube reactor[C]//MATEC Web of Conferences. EDP Sciences, 2021, 333: 05005.
15. Huang X*, Kudo S*, Asano S, et al. Improvement of levoglucosenone selectivity in liquid phase conversion of cellulose-derived anhydrosugar over solid acid catalysts. Fuel Processing Technology, 2021, 212: 106625.
16. Huang X*, Liu T, Wang J, et al. Selective hydrogenation of levoglucosenone over Pd/C using formic acid as a hydrogen source. Journal of the Energy Institute, 2020, 93(6): 2505-2510.
17. Huang X*, Kudo S*, Ashik U P M, et al. Selective hydrodeoxygenation of γ-valerolactone over silica-supported Rh-based bimetallic catalysts. Energy & Fuels, 2020, 34(6): 7190-7197.
18. Huang X, Yamasaki K, Kudo S*, et al. Influence of ionic liquid type on porous carbon formation during the ionothermal pyrolysis of cellulose. Journal of Analytical and Applied Pyrolysis, 2020, 145: 104728.
19. Huang X, Kudo S*, Hayashi J. Two-step conversion of cellulose to levoglucosenone using updraft fixed bed pyrolyzer and catalytic reformer. Fuel Processing Technology, 2019, 191: 29-35.
20. Huang X, Kudo S*, Sperry J, et al. Clean synthesis of 5-hydroxymethylfurfural and levulinic acid by aqueous phase conversion of levoglucosenone over solid acid catalysts. ACS Sustainable Chemistry & Engineering, 2019, 7(6): 5892-5899.
21. Huang X, Kudo S*, Hayashi J. Conversion of Levoglucosenone to Platform Chemicals in Aqueous Phase over Solid Acid Catalysts[C]//Proceedings of International Exchange and Innovation Conference on Engineering & Sciences (IEICES). Interdisciplinary Graduate School of Engineering Sciences, Kyushu University, 2017 (3): 159-162.
22. Huang X, Cao J P*, Zhao X Y, et al. Pyrolysis kinetics of soybean straw using thermogravimetric analysis. Fuel, 2016, 169: 93-98.
23. Huang X, Cao J P*, Shi P, et al. Influences of pyrolysis conditions in the production and chemical composition of the bio-oils from fast pyrolysis of sewage sludge. Journal of analytical and applied pyrolysis, 2014, 110: 353-362.
学术兼职
担任《洁净煤技术》青年编委
担任《Catalysts》(JCR二区)客座编辑
担任国家自然科学基金评审专家
担任教育部学位与研究生发展教育中心评审专家
DeCarbon国际会议分会场主席
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