本人博士毕业于日本九州大学,长期从事生物质热化学转化与利用研究,对生物质热解聚中间体的结构演变规律和反应与传递耦合规律有独到见解,并通过新型反应器的设计和特种催化剂的开发,实现了生物质热解产物的定向调控。以第一作者或通讯作者发表高水平科技论文40篇;先后主持或参加国家自然科学基金、江苏省自然科学基金、国家重点研发计划等项目7项;入选2019年江苏省“双创博士(世界名校类)”培养对象。
项目:
1. 国家自然科学基金,完成,主持。
2. 南京林业大学高层次人才科研启动基金,完成,主持。
3. 江苏省自然科学基金,在研,主持。
发表论文:
[1] Shasha Liu,Gang Wu, Lei Zhang, Shiyi Zhou, Pingping Liu, Shu Zhang, Jianbin Zhou, Yong Huang*. Promoted productionof phenol from lignin pyrolysis over biochar-based catalysts by Fe and Nico-loading. Journal of Analytical andApplied Pyrolysis, 2024, 182, 106708.
[2] Haojie Yang, Xue Li, Shasha Liu, GuiyingLin, Xin Guo, Xin Wang, Kuan Ding, Yong Huang*, Shu Zhang*. Promotion of levoglucosanproduction from biomass pyrolysis by hydrogen peroxide pre-oxidation. BioresourceTechnology, 2024, 400, 130667.
[3] Zhenyang Ling,Junyu Pan, Félix Mérimé Bkangmo Kontchouo, Shasha Liu, Xingjie Lu, Xin Guo,Maxim V. Penzik, Alexander N. Kozlov, Yong Huang*, Shu Zhang*.Current situation of marine CO2 sequestration and analysis of relatedenvironmental issues. Fuel, 2024, 366, 131288.
[4] Anjiang Gao,Kan Zou, Yao Wang, Guoming Gao, Maxim V. Penzik, Alexander N. Kozlov, YusufMakarfi Isa, Yong Huang*, Shu Zhang*. The core factors indetermining product distributions during pyrolysis: The synergistic effect ofvolatile-char interactions and temperature. RenewableEnergy, 2023, 218, 119359.
[5] Shu Zhang#,Kan Zou, Bin Li#, Hojae Shim, Yong Huang#.Key Considerations on The Industrial Application of Lignocellulosic BiomassPyrolysis toward Carbon Neutrality. Engineering,2023, 29, 35–38.
[6] Wenran Gao, Ke Wang,Yishuang Wu, Xun Zhu, YinlongWu, Shoujun Zhang, Bin Li, Yong Huang*, Shu Zhang*,Hong Zhang. Catalytic hydrogenolysis of lignin to phenolic monomers over Rusupported N,S-co-doped biochar: The importance of doping atmosphere. Frontiersin Chemistry, 2022, 10, 1022779.
[7] Gang Wu, HaojieYang, Wenran Gao, Kui Wang, Maxim V. Penzik, Alexander N. Kozlov, Bin Li, YongHuang*, Shu Zhang*, Hong Zhang. The importance of cobalt disulfidemorphology for cellulose depolymerization: Hydrogenolysis versus acidcatalysis. Journal of Analytical and Applied Pyrolysis, 2022,167, 105659.
[8] Yanqian Gu,Shasha Liu, Gang Wu, Yinlong Wu, Shoujun Zhang, Yong Huang*, ShuZhang*, Hong Zhang. Insight into the production of phenol from co-pyrolysis ofcellulose and sodium borohydride. Biofuels, Bioproducts and Biorefining, 2023,17, 355–362.
[9] Tao Ding,Yishuang Wu, Xun Zhu, Guiying Lin, Xun Hu, Hongqi Sun, Yong Huang*, Shu Zhang*, and Hong Zhang. Promoted Productionof Phenolic Monomers from Lignin-First Depolymerization of Lignocellulose overRu Supported on Biochar by N,P-co-Doping. ACS Sustainable Chemistry &Engineering, 2022, 10, 2343–2354.
[10]Shasha Liu,Gang Wu, Syed Shatir A. Syed-Hassan, Bin Li, Xun Hu, Jianbin Zhou, Yong Huang*, Shu Zhang*, HongZhang. Catalytic pyrolysis of pine wood over char-supported Fe: Bio-oilupgrading and catalyst regeneration by CO2/H2O. Fuel, 2022, 307, 121778.
[11]Wenran Gao,Gang Wu, Xun Zhu, Muhammad Asif Akhtar, Guiying Lin, Xun Hu, Yong Huang*, Shu Zhang, HongZhang. Production of methyl levulinate from cellulose over cobalt disulfide:The importance of the crystal facet (111). Bioresource Technology, 2022, 347, 126436.
[12]Gang Wu, ChenShen, Shasha Liu, Yong Huang*,Shu Zhang* and Hong Zhang. Research progress on the preparation and applicationof biomass derived methyl levulinate. Green Chem., 2021, 23, 9254-9282.
[13]Liang Ge,Yishuang Wu, Fei Wang, Yong Huang*.Algae-Derived Nitrogen Self-Doped Porous Carbon Materials with HighSupercapacitor Performances. Energy Fuels, 2021,35, 15118?15125.
[14]Kuan Ding,Yuhui Wang, Shasha Liu, Guiying Lin, Syed Shatir A. Syed-Hassan, Bin Li, XunHu, Yong Huang*, Shu Zhang*,Hong Zhang. Volatile-char interactions during biomass pyrolysis: Insight intothe activity of chars derived from three major components. Journal ofAnalytical and Applied Pyrolysis, 2021,159, 105320.
[15]Shasha Liu,Yuhui Wang, Juan Wang, Jianbin Zhou, Xun Hu, Hongqi Sun, Muhammad Asif Akhtar,Hong Zhang, Yong Huang*, ShuZhang*. Decomposition of benzyl phenyl ether over char-supported Ni: The effectof char structures. Fuel Processing Technology, 2021, 221, 106941.
[16]Yishuang Wu,Zixiang Lin, Xun Zhu, Xun Hu, Mortaza Gholizadeh, Hongqi Sun, Yong Huang*, Shu Zhang, HongZhang. Hydrogenolysis of lignin to phenolic monomers over Ru based catalystswith different metal-support interactions: Effect of partial hydrogenation ofC(sp2)-O/C. Fuel, 2021, 302,121184.
[17]Shasha Liu, Yishuang Wu, Jie Zhang, Wenran Gao, Jianbin Zhou, YongHuang*, Shu Zhang*, and Hong Zhang. Volatiles-char interactions duringbiomass pyrolysis: A case study of lignin model compound and functionalizedgraphitized carbon nanotubes. Energy & Fuels, 2019, 33, 11339?11345.
[18] Shi Qiu, Mingrui Li, Yong Huang*, Yunming Fang*. Catalytic Hydrotreatment ofKraft Lignin over NiW/SiC: Effective Depolymerization and CatalystRegeneration. Ind. Eng. Chem. Res., 2018, 57, 2023-2030.
[19] Yalun Hu, Isaac Nartey Oduro, Yong Huang*, Yunming Fang. Structural characterization andpyrolysis behavior of holocellulose obtained from lignin-first biorefinery. J. Anal. Appl. Pyrolysis, 2016, 120, 416-422.
[20] 黄勇,刘沙沙,吴益霜,周建斌,张书*. 丁香酚在生物质半焦催化下的转化行为[J]. 林业工程学报,2021,6(02):94-100.
[21] 黄勇,刘沙沙,顾燕倩,张书*. β-5型木质素模型化合物热解机理研究[J]. 林产工业,2020,57(09):27-31.
[22] 黄勇,刘沙沙,吴益霜,周建斌,张书*. 基于模型化合物的生物质半焦催化性能研究[J]. 林产化学与工业,2020,40(05):63-68.
[23] 黄勇,刘沙沙,吴益霜,顾燕倩,任嘉辉,周建斌,张书*. 炭基杂原子官能团对木质素模型化合物热解的影响机制[J]. 可再生能源,2020,38(09):1137-1142.
[24] Yong Huang, Shasha Liu, Yishuang Wu, Xun Zhu*, Zhixiang Xu, Bin Li, Xun Hu, HongqiSun, Jianbin Zhou, and Shu Zhang*. Volatile?char interactions during biomasspyrolysis: Contribution of amino group on graphitized carbon nanotube to xyloseevolution based on experimental and theoretical studies. Fuel, 2020, 282, 118921.
[25] Yong Huang, Shasha Liu, Muhammad Asif Akhtar, Bin Li, JianbinZhou*, Shu Zhang*, Hong Zhang. Volatile–char interactions during biomass pyrolysis: Understanding thepotential origin of char activity.Bioresour. Technol., 2020, 316,123938.
[26] Yong Huang, Bin Li*, Dongjing Liu, Xing Xie, Hong Zhang, Hongqi Sun, Xun Hu, and ShuZhang*. The fundamental and advance in biomass autothermal/oxidative pyrolysis:A review. ACS Sustainable Chem. Eng.,2020, 8, 11888?11905.
[27] Yong Huang, Shasha Liu, Jie Zhang, Syed Shatir A. Syed-Hassan,Xun Hu, Hongqi Sun, Xun Zhu, Jianbin Zhou, Shu Zhang*, Hong Zhang.Volatile?char interactions during biomass pyrolysis: Cleavage of C?C bond in aβ?5 lignin model dimer by amino-modified graphitized carbon nanotube. Bioresour. Technol., 2020, 307, 123192.
[28] Yong Huang, Yaxuan Gao, Hao Zhou, Hongqi Sun, Jianbin Zhou*, Shu Zhang*. Pyrolysis ofpalm kernel shell with internal recycling of heavy oil. Bioresour. Technol., 2019,272, 77-82.
[29] Yong Huang, Yiling Wan, Shasha Liu, Yimeng Zhang, Huanhuan Ma,Shu Zhang*, Jianbin Zhou*. A Downdraft Fixed-Bed Biomass Gasification Systemwith Integrated Products of Electricity, Heat, and Biochar: The Key Featuresand Initial Commercial Performance. Energies, 2019, 12, 2979.
[30] Yong Huang#, Yijing Duan#, Shi Qiu#,Meng Wang, Chao Ju, Hui Cao, Yunming Fang*, Tianwei Tan. Lignin-firstbiorefinery: a reusable catalyst for lignin depolymerization and application oflignin oil to jet fuel aromatics and polyurethane feedstock. Sustainable Energy Fuels, 2018, 2, 637-647.
[31] Yong Huang, Yonggang Wang, Hao Zhou, Yaxuan Gao, Deliang Xu, Lei Bai*, Shu Zhang*.Effects of Water Content and Particle Size on Yield and Reactivity of LigniteChars Derived from Pyrolysis and Gasification. Molecules, 2018, 23,2717.
[32] Yong Huang, Yalun Hu, Fenghui Ye, Yunming Fang*. Lignin Pyrolysis and in SituHydrodeoxygenation over MoO3: Interaction between MoO3and Lignin. Energy Fuels, 2017, 31, 8356-8362.
[33] Yong Huang, Shi Qiu, Xuan Guo, Shenghua Lin, Yunming Fang*. One-Pot Conversion ofCarbohydrates in Biomass to Isobutyroin-Rich Branched Oxygenates: CarbohydrateDepolymerization and Methyl Introduction in Supercritical Methanol. Energy Fuels, 2017, 31, 688-692.
[34] Yong Huang, Yalun Hu, Jun-ichiro Hayashi*, Yunming Fang*. Interactions betweenVolatiles and Char during Pyrolysis of Biomass: Reactive Species Determiningand Reaction over Functionalized Carbon Nanotubes. Energy Fuels, 2016, 30,5758-5765.
[35] Yong Huang, Shi Qiu, Isaac Nartey Oduro, Xuan Guo, Yunming Fang*. Production ofHigh-Yield Bio-oil with a High Effective Hydrogen/Carbon Molar Ratio throughAcidolysis and In Situ Hydrogenation. EnergyFuels, 2016, 30, 9524-9531.
[36] Yong Huang, Hajime Sakamoto, Shinji Kudo, Koyo Norinaga, Jun-ichiro Hayashi*.Pyrolysis of Lignite with Internal Recycling and Conversion of Oil. Energy Fuels, 2014, 28, 7285-7293.
[37] Yong Huang, Shinji Kudo, Ondrej Masek, Koyo Norinaga, Jun-ichiro Hayashi*.Simultaneous Maximization of the Char Yield and Volatility of Oil from BiomassPyrolysis. Energy Fuels, 2013, 27, 247-254.
[38] Yong Huang, Shinji Kudo, Koyo Norinaga, Masaki Amaike, Jun-ichiro Hayashi*. SelectiveProduction of Light Oil by Biomass Pyrolysis with Feedstock-Mediated Recyclingof Heavy Oil. Energy Fuels, 2012, 26, 256-264.
[39] 黄勇, 則永 行庸*, 工藤 真二, 林 潤一郎, 戸村 啓二, 堀内 聡, 高須 展夫. 高収率炭化物製造のためのバイオマス移動層熱分解プロセスの開発. 粉体工学会, 2013, 50 (3): 173-181.
[40] 黄勇,魏贤勇*,张明明,路瑶,李艳,陈飞剑,姚子硕,周金凤,宗志敏. 新疆黑山煤液化重质油组成结构的研究. 武汉科技大学学报,2009,32(5):532-537.