姓名
徐建
性别
男
最高学位
博士

职称职务
教授/博士生导师,

研究方向
生物质能源、材料、化学品

邮箱
super_xujian@yahoo.com; jianxu@ahut.edu.cn

学习工作经历
教育经历
2003.9—2006.7 中国科学院过程工程研究所生物化工专业 工学博士
1997.9—2000.7 沈阳农业大学生物化学与分子生物学专业 理学硕士
1993.9—1997.7 锦州师范学院化学教育专业 理学学士
工作经历
2017.7-至今 安徽工业大学化学与化工学院 教授/博士生导师
2010.9-2017.6 中国科学院过程工程研究所 研究员/博士生导师
2007.12-2010.9 丹麦科技大学可持续发展能源实验室 (Risø-DTU) 博士后
2006.9-2007.11 美国纽约州立大学环境科学与林学院（SUNY-ESF） 博士后

主要科研项目及成果
研究工作着眼于生物质为主体的可再生能源、材料与化学品的高效转化过程，以提高不同种类资源利用率，通过过程整合、技术创新为生物质产业化提供保障。先后主持国家自然科学基金面上项目,国家“863”“973”项目子课题等。发表文章40余篇，其中SCI文章30篇，获中国发明专利授权14项；合编《现代固态发酵原理与应用》，参与编写英文书籍两章。

文章
[1] Wei Jiang, Senlin Chang, Yongshui Qu, Zhiguo Zhang,Xu Jian*. 2016. Changes on structural properties of biomass pretreated by combined deacetylation with liquid hot water and its effect on enzymatic hydrolysis. Bioresource Technology. 220:448-456.
[2] Liu Kaixuan, Li Hongqiang, Zhang Jie, Zhang Zhiguo,Xu Jian*. 2016. The effect of non-structural components and lignin on hemicellulose extraction. Bioresource Technology. 214:755-760.
[3] Qu Yongshui, Li Li, Wei Quanyuan, Huang Chongpin, Oleskowicz-Popiel Piotr,Xu Jian*. 2016. One-pot conversion of disaccharideinto 5-hydroxymethylfurfural catalyzed by imidazole ionic liquid. Scientific Reports. 6:26067.
[4] Shao Qaing, Li Hongqiang, Huang Chongpin,Xu Jian*. 2016. Biopolyol Preparation from Liquefaction of Grape Seeds. Journal of Applied Polymer Science. 133(34):43835.
[5] Shen Rui, Li Hongqiang, Zhang Jie,Xu Jian*. 2016. Effects of impurities in alkali-extracted xylan on its enzymatic hydrolysis to produce xylo-oligosaccharides. Applied Biochemistry & Biotechnology. 179(5), 740-752.
[6] Li HongQiang, Shao Qiang, Luo Hao,Xu Jian*. 2016. Polyurethane Foams from Alkaline Lignin-based Polyether Polyol. Journal of Applied Polymer Science. 133(14):43261.
[7] Jiang Wei,Xu Jian*. 2016. A novel stepwise pretreatment on corn stalk by alkali deacetylation and liquid hot water for enhancing enzymatic hydrolysis and energy utilization efficiency. Bioresource Technology. 209:115-124.
[8] Li Hongqiang, Qu Yongshui, Yang Yongqing, Chang Senlin,Xu Jian*. 2016. Microwave irradiation-A green and efficient way to pretreat biomass. Bioresource Technology. 199:34-41.
[9] Qu Yongshui, Luo Hao, Li Hongqiang,Xu Jian*. 2015. Comparison on structural modification of industrial lignin by wet ball milling and ionic liquid pretreatment. Biotechnology Reports. 6:1-7.
[10] Jiang Wei, Chang Senlin, Li Hongqiang,Xu Jian*. 2015. Liquid Hot Water Pretreatment on Different Parts of Cotton Stalk to Facilitate Ethanol Production. Bioresource Technology. 176:175-180.
[11] Jiang Wei, Peng Huadong, Li Hongqiang,Xu Jian*. 2014. Effect of acetylation/deacetylation on enzymatic hydrolysis of corn stalk. Biomass & Bioenergy. 71:294-298.
[12] Jiang Wei, Li Zhao, Li Hongqiang,Xu Jian*. 2014. Effect of different sweet sorghum storage conditions on ethanol production. Biochemistry & Physiology. 3(4):142-145.
[13] Peng Huadong, Luo Hao, JinShengying, Li Hongqiang,Xu Jian*. 2014. Improved bioethanol production from corn stover by alkali pretreatment with a novel pilot-scale continuous microwave-assisted reactor. Biotechnology and Bioprocess Engineering. 19:493-502.
[14] Qu Yongshui, Wei Quanyuan, Li Hongqiang, Piotr Oleskowicz-Popiel, Huang Chongpin,Xu Jian*. 2014. Microwave-assisted Conversion of Microcrystalline Cellulose to 5-Hydroxymethylfurfural Catalyzed by Ionic Liquids. Bioresource Technology. 162:358-364.
[15] Peng Huadong, Chen Hongzhang, Qu Yongshuo, Li Hongqiang,Xu Jian*. 2014. Bioconversion of different sizes of microcrystalline cellulose pretreated by microwave irradiation with/without NaOH. Applied Energy. 117:142-148.
[16] Li Hongqiang, Jiang Wei, JiaJingxia,Xu Jian*. 2014. pH pre-corrected liquid hot water pretreatment on corn stover with high hemicellulose recovery and low inhibitors formation. Bioresource Technology. 153:292-299.
[17] Li Hongqiang, Li Chenglan, Sang Tao,Xu Jian*. 2013. Pretreatment on Miscanthuslutarioriparious by Liquid Hot Water for Efficient Ethanol Production. Biotechnology for Biofuels. 6:76.
[18] Li Hongqiang,Xu Jian*. 2013. A new correction method for determination on carbohydrates in lignocellulosic biomass. Bioresource Technology. 138:373-376.
[19] Peng Huadong, Li Hongqiang, Luo Hao,Xu Jian*. 2013. A novel combined pretreatment of ball milling and microwave irradiation for enhancing enzymatic hydrolysis of microcrystalline cellulose. Bioresource Technology. 130:81-87.
[20] Li Hongqiang，Xu Jian*. 2013. Calcium Chloride-Assisted Microwave Pretreatment on Corn Stover Using Central Composite Design. Bioresource Technology. 127:112–118.
[21]Xu Jian*, Chen Hongzhang, Kádár Zsófia., Thomsen Anne Belinda, Schmidt Jens Ejbye, Peng Huadong. 2011. Optimization of microwave pretreatment on wheat straw for ethanol production. Biomass & Bioenergy. 35(9):3859-3864.
[22]Xu Jian*, Thomsen Mette Hedegaard, Thomsen Anne Belinda. 2010. Feasibility of hydrothermal pretreatment on maize silage for bioethanol production. Applied Biochemistry and Biotechnology. 162(1):32-42.
[23]Xu Jian*, Thomsen Mette Hedegaard. 2010. Investigation of acetic acid-catalyzed hydrothermal pretreatment on corn stover. Applied Microbiology and Biotechnology. 86:509-516.
[24]Xu Jian*, Thomsen Mette Hedegaard, Thomsen Anne Belinda. 2010. Ethanol production from hydrothermal pretreated corn stover with a loop reactor. Biomass & Bioenergy. 34(3):334-339.
[25]Xu Jian*, Thomsen Mette Hedegaard, Thomsen Anne Belinda. 2009. Recovery of arabinan in acetic acid-catalyzed hydrothermal pretreatment on corn stover. Biomass & Bioenergy. 33(12):1660-1663.
[26]Xu Jian*, Thomsen Mette Hedegaard, Thomsen Anne Belinda. 2009. Pretreatment on corn stover with low concentration of formic acid. Journal of Microbiology and Biotechnology. 19(8):845-850.
[27]Xu Jian*, Liu Shijie. 2009. Optimization of Ethanol production from hot-water extracts of sugar maple chips. Renewable Energy. 34(11):2353-2356.
[28]Xu Jian*, Thomsen Mette Hedegaard, Thomsen Anne Belinda. 2009. Enzymatic hydrolysis and fermentability of corn stover pretreated by lactic acid and/or acetic acid. Journal of Biotechnology. 139:300-305.
[29] 常森林,李宏强,徐建*.2017.水热预处理耦合高沸醇从核桃壳提取高品质木质素.食品工业.38(4):85-90.
[30] 李曌,陈国刚^*,徐建.2016.湿法粉碎辅助溶剂提取葡萄皮渣中多酚的研究.粮食与油脂.29(10):78-81
[31] 刘凯旋,张傑,李宏强,徐建*.2016.碱浓度和温度对玉米秸秆半纤维素提取的影响.农业工程学报.32(11):302-308
[32] 李曌,李宏强,陈国刚,吴剑,徐建*.2016.野樱莓多酚提取剂对多酚抗氧化活性和可浓缩性的影响.山东大学学报(理学版).51(5):1-5
[33] 李曌,李宏强,陈国刚,徐建*.2016.溶剂类型对葡萄籽多酚提取及抗氧化活性的影响.食品工业.37(12):122-127
[34] 李京,黄崇品,李宏强,徐建*.2015.纳滤膜分子截流量对玉米秸秆木聚糖提取液脱盐效果的影响.纤维素科学与技术.23(04):1-8.
[35] 曲永水,罗皓,李宏强,徐建*.2014.微波辅助工业木质素催化转化为苯酚类化合物的研究.生物工程学报.30(5):765-773.
授权专利(发明人.专利名称.专利号)
[1]徐建,李宏强,彭华栋.微波干法或半干法预处理生物质的方法.6.9
[2]徐建,彭华栋.真空水热预处理生物质的方法.8.1
[3]徐建,李宏强,彭华栋.模块耦合式生物质微波干法或半干法预处理反应器.6.x
[4]徐建,陈洪章.一种生物质水热预处理反应器.5.3
[5]徐建,高婧,彭华栋.一种无氧条件下球磨辅助有机溶剂提取多酚类物质的集成工艺.2.7
[6]徐建,李宏强.一种生物质连续水热预处理反应器.1.0
[7]徐建,彭华栋,高婧.一步法球磨辅助有机溶剂的高效多酚提取工艺.6.4
[8]徐建,曲永水,高婧.一种微波辅助离子液体催化微晶纤维素转化为5-羟甲基糠醛的方法.5.2
[9]徐建,曲永水,高婧.一种微波辅助木质素定向转化苯酚的方法.6.3
[10]徐建,罗皓,高婧,曲永水.一种用离子液体提高工业木质素品质的方法.9.0
[11]徐建,李宏强.用于生物炼制的木质纤维素原料的预处理方法.5.6
[12]徐建,曲永水,高婧.一种微波辅助胍类离子液体催化木质素定向转化为苯二酚类化合物的方法.7.X
书籍
[1] 参编：Li Hongqiang, Qu Yongshui,Xu Jian.Chapter 4：Microwave-Assisted Conversion of Lignin, pp. 67-82. In: Production of Biofuels and Chemicals with Microwave, Edited by Zhen Fang, Richard L. Smith Jr, Qi Xinhua, 11/2014. Springer Netherlands, ISBN: 978-94-017-9611-8.
[2] 参编：Xu Jian.Chapter 9：Microwave Pretreatment, pp. 157-172. In: Pretreatment of Biomass: Processes and Technologies, 1st edited by Ashok Pandey, Sangeeta Negi, Parmeswaran Binod, Christian Larroche, 09/2014. Elsevier, ISBN: 978-0-12-800080-9.[3]合编: «现代固态发酵原理及应用». 2004.化学工业出版社.