姜炜坤

姜炜坤

副教授

个人简介:


副教授,硕士生导师,山东省高层次计划引进人才。

2018年在华南理工大学获得生物质科学与工程博士学位。

2019-2020年在加拿大新不伦瑞克大学从事博士后研究员工作。

2021年至今,圣泉集团/青岛科技大学联合培养博后。

2018年7月至今任齐鲁工业大学生物基材料与绿色造纸国家重点实验室教师,于2019年任国家重点实验室硕士生导师,并于2021年破格为副教授。

主要从事生物质高值化利用与生物质基新材料开发与研制工作,相关成果以第一作者或通讯作者在Green Chemistry,Composites Part B: Engineering,Fuel Processing Technolog,Fuel以及Energy and Fuels等杂志发表SCI论文20余篇。近五年主持国家自然科学基金1项,博士科研启动基金项目1项,国家重点实验室开放课题1项,青岛科技大学开放基金项目1项以及多项企业横向项目等,申请国内外专利10余项。省级“课程思政”示范教学团队成员,山东省专业学位研究生优秀实践成果奖,山东省优秀毕业生,华南理工大学博士国家奖学金、优博基金资助,齐鲁工业大学高水平学术成果奖等获得者。Journal of Cleaner Production,Fuel Processing Technology,RSC advances, Biocatalysis and Agricultural Biotechnology, Journal of Bioresources and Bioproducts等近十个国际知名期刊杂志审稿人。

主要科研类业绩与成果:

[1] Weikun Jiang, Shuyun Liu, Chaojun Wu, Yu Liu, Guihua Yang and Yonghao Ni. Super-stable, solvent-resistant and uniform lignin nanorods and nanospheres with a high yield in a mild and facile process. Green Chemistry, 2020, 22, 8734.

[2] Xiaohua Zhang, Weikun Jiang, Hao Ma, Shubin Wu. Relationship between the formation of oligomers and monophenols and lignin structure during pyrolysis process. Fuel, 2020, 276: 118048.

[3] Yang Zhang, Jincheng Mao, Weikun Jiang*, Shuo Zhang, Li Tong, Jinhua Mao, Guo Wei, Ming Zuo, Yonghao Ni. Lignin sulfonate induced ultrafast polymerization of double network hydrogels with anti-freezing, high strength and conductivity and their sensing applications at extremely cold conditions. Composites Part B, 2021, 217: 108879.

[4] Weikun Jiang, Jiangyong Chu, Shubin Wu. Modeling the Pyrolytic Behavior of Lignin through Two Representative Monomers: Vanillin and Acetovanillone. Journal of Analytical and Applied Pyrolysis, 2018, 130: 241-248.

[5] Weikun Jiang, Jiangyong Chu, Shubin Wu, Lucian A. Lucia. Modeling pyrolytic behavior of pre-oxidized lignin using four representative β-Ether-type lignin-like model polymers. Fuel Processing Technology, 2018, 176: 221-229.

[6] Weikun Jiang, Gaojin Lyu, Yu Liu, Chao Wang, Jiachuan Chen, Lucian A. Lucia. Quantitative Analyses of Lignin Hydrothermolysates from Subcritical Water and Water−Ethanol Systems. Industrial & engineering chemistry research, 2014, 53, 10328−10334.

[7] Weikun Jiang, Gaojin Lyu, Shubin Wu, Lucian A.Lucia. Near-critical water hydrothermal transformation of industrial lignins to high value phenolics. Journal of Analytical and Applied Pyrolysis, 2016, 120: 297-303.

[8] Weikun Jiang, Jiangyong Chu, Shubin Wu, Lucian A.Lucia. Secondary pyrolysis pathway of monomeric aromatics resulting from oxidized β-O-4 lignin dimeric model compounds. Fuel Processing Technology, 2017, 168: 11-19.

[9] Weikun Jiang, Shubin Wu, Lucian A. Lucia Jingyong Chu. Effect of side-chain structure on hydrothermolysis of lignin model compounds. Fuel Processing Technology, 2017, 166: 124-130.

[10] Weikun Jiang, Shubin Wu, Lucian A. Lucia, Jiangyong Chu. A comparison of the pyrolysis behavior of selected type lignin model compounds. Journal of Analytical and Applied Pyrolysis, 2017, 125: 185-192.

[11] Weikun Jiang, Gaojin Lyu, Shubin Wu, Lucian A. Lucia, and Yu Liu. Supercritical Water-Induced Lignin Reactions: A Structural and Quantitative Study. BioResources, 2016, 11 (3): 5660-5675.

[12] Weikun Jiang, Shubin Wu, Mechanism study on depolymerization of the α-O-4 linkage lignin model compound in supercritical ethanol system. Waste and Biomass Valorization, 2017, 8(4): 1303-1311.

[13] Jiangyong Chu, Weikun Jiang, Shubin Wu. Luican A. Lucia, Ming Lei. Hydrothermal-Controlled Conversion of Black Liquor Acid Sediment Directly to Phenolics. Energy and Fuels, 2017, 31(2): 1638-1643.



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