| 教师个人介绍 | ||||||
|
| 姓名 刘同军 系部:生物工程 办公电话: 电子邮件:tjliu@qlu.edu.cn 通讯地址:济南市长清区大学路3501号 邮政编码:250353 | |||||
| 个人简历 | 研究方向 | 学术兼职 | 科研项目 | 代表性论文 | 教学工作 | 荣誉奖励 |
| 工作经历 2021.01至今:教授,齐鲁工业大学,生物工程学部 2007.9-2020.12:副教授,齐鲁工业大学,生物工程学院 2003.7-2007.8:讲师,齐鲁工业大学,食品与生物工程学院 2009-2014:博士后。美国密歇根州立大学化工与材料科学系 教育背景 1998.09-2002.12:山东大学,微生物学,博士 | ||||||
| 个人简历 | 研究方向 | 学术兼职 | 科研项目 | 代表性论文 | 教学工作 | 荣誉奖励 |
| 1. 木质纤维素生物质转化(农林废弃物高值化利用技术) 2.微生物源活性物质的研究与开发 3. 生物分离 | ||||||
| 个人简历 | 研究方向 | 学术兼职 | 科研项目 | 代表性论文 | 教学工作 | 荣誉奖励 |
| 纵向课题 1. 木质纤维素转化燃料乙醇新工艺的开发与中试放大,山东省重点研发项目,10万元,主持,结题 2. 高浓底物酶水解提高生物酒精经济竞争力的基础问题研究,山东省自然基金面上项目,13万元,主持,结题 3. 糠醛渣的高值化利用,山东省西部经济隆起带急需紧缺人才项目,75万,主持,结题 技术研发 1. 高产乳酸菌的开发及乳酸高效分离,企业技术研发,10万,主持 2. 甘薯渣高效制备乳酸及聚乳酸,企业技术研发,50万,主持 3. 菊芋综合利用及产品开发,企业技术研发,15万,主持,结题 | ||||||
| 个人简历 | 研究方向 | 学术兼职 | 科研项目 | 代表性论文 | 教学工作 | 荣誉奖励 |
| 著作 1.《木质纤维素生物质转化》,北京: 中国水利水电出版社,2018. 2. 《蛋白质工程》,北京:高等教育出版社,2017. 3. 《食品发酵工艺学》,北京:科学出版社,2016. 4. 《Microbial Lipid Production. Methods in Molecular Biology》-Chapter: Alkaline and Alkaline-Oxidative Pretreatment and Hydrolysis of Herbaceous Biomass for Growth of Oleaginous Microbes, 纽约,2019 期刊论文(部分) 1. J Sun, F Mao, T Liu, Process development of nattokinase microcapsules based on a novel sodium alginate-gelatin-chitosan composite material. Preparative Biochemistry & Biotechnology, 2026, 56 (2), 261-273. 2. S Wang, J Xu, S Xu, et al. Efficient enzymatic hydrolysis of sweet potato residue by fed-batch method to prepare high-concentration glucose. Bioprocess and Biosystems Engineering, 2025, 48 (5), 829-839. 3. Z Sun, J Xu, et al. A review of the fractionation and properties of lignin derived from pulping black liquor and lignocellulose pretreatment. Nordic Pulp & Paper Research Journal, 2025. 4. X Liu, J Gu, Green fabrication of zinc-based metal–organic frameworks@ bacterial cellulose aerogels via in situ mineralization for wastewater treatment. Molecules, 2025, 30 (5), 982. 5. J Gu, W Yi, et al. Synthesis of highly porous ferric hydroxide-bacterial cellulose nanocomposites via in-situ mineralization for efficient glyphosate removal. Cellulose, 2024, 31 (13), 8041-8053. 6. Xiaoli Ge, Junxiao Chen, et al. Metabolomic analysis of hydroxycinnamic acid inhibition on Saccharomyces cerevisiae. Applied Microbiology and Biotechnology, 2024. 7. L Tan, W Zhang, dta al. Porous fibrous bacterial cellulose/La (OH) 3 membrane for superior phosphate removal from water. Carbohydrate polymers, 2022, 298, 120135. 8. L Tan, Y Zhang, et al. One-pot method to prepare lignin-based magnetic biosorbents for bioadsorption of heavy metal ions. Industrial Crops and Products, 2022, 176, 114387. 9. S Xu, S Xu, et al. Low-cost and highly efficient production of bacterial cellulose from sweet potato residues: Optimization, characterization, and application. International Journal of Biological Macromolecules, 2022, 196, 172-179. 10. W Gao, Z Li, et al. Production of high-concentration fermentable sugars from lignocellulosic biomass by using high solids fed-batch enzymatic hydrolysis. Biochemical Engineering Journal , 2021, 176, 108186. 11. Rongwen Zhao, Zhongyang Liu, et al. Pyrolysis Behaviors, Kinetics, and Byproducts of Enzymatic Hydrolysis Residues for Lignocellulosic Biorefining. BioResources, 2021, 16 (2), 2626-2643. 12. 杨莉,谭丽萍等. 木质纤维素预处理抑制物产生及脱除方法的研究进展. 生物工程学报, 2021, 37 (1), 15-29. 13. LT Li Yang, et al. Features correlated to improved enzymatic digestibility of corn stover subjected to alkaline hydrogen peroxide pretreatment. Bioresource Technology, 2021, 325, 124688. 14. L Tan, Z Liu, et al. Enhanced enzymatic digestibility of poplar wood by quick hydrothermal treatment. Bioresource technology, 2020, 302, 122795. 15. L Tan, Z Liu, et al. Changes of the structures and properties of corn stover during acid sulfite pretreatment for improved enzymatic hydrolysis. BioResources, 2020, 15 (1), 1001. 16. T Liu, L Yang, et al. Hydroxycinnamic acids release during bioconversion of corn stover and their effects on lignocellulolytic enzymes. Bioresource technology, 2019, 294, 122116. 17. L Tan, Z Liu, et al. Efficient fractionation of corn stover by bisulfite pretreatment for the production of bioethanol and high value products. BioResources, 2019, 14 (3), 6501-6515. 18. T Liu, Z Li. An electrogenerated base for the alkaline oxidative pretreatment of lignocellulosic biomass to produce bioethanol. RSC advances, 2017, 7 (75), 47456-47463. 19. Tongjun Liu, Daniel L Williams, et al. Coupling alkaline pre-extraction with alkaline-oxidative post-treatment of corn stover to enhance enzymatic hydrolysis and fermentability. Biotechnology for Biofuels, 2014, 7, 48.
| ||||||
| 个人简历 | 研究方向 | 学术兼职 | 科研项目 | 代表性论文 | 教学工作 | 荣誉奖励 |
| 本科生课程 1. 《生物分离工程》(32学时) 2. 《生物工程工艺综合实验》(4周) 3. 《劳动教育》(32学时) 研究生课程 1. 《生化分离工程》(32学时) 指导研究生 1. 2024级硕士:3人 2. 2023级硕士:2人 | ||||||
| 个人简历 | 研究方向 | 学术兼职 | 科研项目 | 代表性论文 | 教学工作 | 荣誉奖励 |
| 2. 2018年,山东省高等学校优秀科研成果三等奖(第一位); 3. 2019年,济南市优秀自然科学学术成果一等奖(第一位) | ||||||
