微生物代谢国家重点实验室-科研队伍

白凤武

姓名: 白凤武

职称: 教授

E-Mail: fwbai@sjtu.edu.cn

个人主页:

联系电话: 3420 8028

个人简历:

个人简介

长期从事工业生物技术研究工作，重点是生物能源基础研究与创新技术开发。主持并完成国家自然科学基金、863项目、科技支撑项目及企业委托技术开发等多项课题的研究工作。系统提出了利用细胞自絮凝作为固定化方法的自固定化细胞的概念，选育了乙醇发酵性能优良的自絮凝酵母菌株，开发了适宜的悬浮床生物反应器，解决了工程放大问题，并在国家燃料乙醇试点工程建设中得到应用，取得的技术成果获教育部科技进步二等奖，自絮凝酵母菌株及乙醇发酵创新技术均获国家发明专利，发表论文120多篇，其中60多篇发表在Biotechnol Adv, Metab Eng及Biotechnol Bioeng等本领域较高水平国际学术期刊上，编著丛书Biotechnology in China III: Biofuels and Bioenergy (Springer）及专著Industrial Biotechnology and Bulk Commodities (Elsevier)。

作为主要组织者之一，在大连组织IUPAC发起的第13届国际生物技术大会暨展览会（IBS2008），应邀在欧美和日韩等国家召开的主要生物技术国际会议及明尼苏达大学、普度大学和俄亥俄州立大学等国际著名大学作报告。

教育经历

2005.05−2007.04 加拿大滑铁卢大学化工系   博士

1985.09−1988.06 大连理工大学化工学院     硕士

1981.09−1985.07 大连理工大学化工机械     学士

工作经历

2012.11−至今     上海交通大学微生物代谢国家重点实验室   教授

1999.08−2012.10   大连理工大学生命科学技术学院          教授

2010.03−2010.12   美国麻省理工学院化工系        访问教授

2002.11−2003.07   加拿大滑铁卢大学化工          访问学者

1999.09−2000.02   美国俄亥俄大学化工系          访问学者

1995.07−1999.07   大连理工大学化工学院          副教授

1990.07−1995.06   大连理工大学化工学院          讲师

1988.06−1990.0    大连理工大学化工学院          助教

荣誉奖励

Editor, Biotechnology Advances

Editorial Board Member for

Biotechnology and Bioengineering

Biotechnology for Biofuels

Journal of Biotechnology

Member, Subcommittee on Biotechnology, IUPAC
1. 菌株的代谢工程改造

2. 细胞培养与产品工程

3. 过程集成与系统优化
1.       Liu CG, Xue C, Bai FW^*, Lin YH^*. Redox potential control and applications in micro-aerobic and anaerobic fermentations. Biotechnol Adv, 2013, 31(2):257-265.

2.       Wan C, Zhao XQ, Guo SL, Asraful Alam M, Bai FW^*. Bioflocculant production from Solibacillus silvestris W01 and its application in cost-effective harvest of marine microalga Nannochloropsis oceanica by flocculation. Bioresource Technol, 2013, 135:207-212.

3.       Wu YD, Xue C, Chen LJ^*, Bai FW^*. Effects of zinc supplementation on batch acetone-butanol-ethanol fermentation. J Biotechnol, 2013, 165:18-21.

4.       Guo SL, Zhao XQ^*, Tang Y, Alam MA, Wan, Ho SH, Bai FW^*, Chang JS. Establishment of an efficient genetic transformation system in Scenedesmus obliquus. J Biotechnol, 2013, 163(1):61-68.

5.       Zhao XQ, Zi LH, Bai FW^*, Lin HL, Hao XM, Yue GJ, Ho NWY. Bioethanol from lignocellulosic biomass. Adv Biochem Engin/Biotechnol, 2012, 128:25-51.

6.       Zhao XQ, Li Q, He LY, Li F, Que WW, Bai FW^*. Exploration of a natural reservoir of flocculating genes from various Saccharomyces cerevisiae strains and improved ethanol fermentation using stable genetically engineered flocculating yeast strains. Process Biochem, 2012, 47:1612-1619.

7.       Zhao XQ, Bai FW^*. Zinc and yeast stress tolerance: micronutrient plays a big role. J Biotechnol, 2012, 158(4):176-183.

8.       He LY, Zhao XQ, Bai FW^*. Engineering industrial Saccharomyces cerevisiaestrain with the FLO1-derivative gene isolated from the flocculating yeast SPSC01 for constitutive flocculation and fuel ethanol production. Appl Energ2012, 100:33-40.

9.       He LY, Zhao XQ, Ge XM. Bai FW^*. Identification and functional study of a newFLO10-derivative gene from the industrial flocculating yeast SPSC01. J IndMicrobiol Biotechnol, 2012, 39(8):1135-1140.

10.   Yuan WJ, Chang BL, Ren JG, Liu JP, Bai FW^*, Li YY. Consolidated bioprocessing strategy for ethanol production from Jerusalem artichoke tubers by Kluyveromyces marxianus under high gravity conditions. J Appl Microbiol 2012, 112(1):38-44.

11.   Yu L, Wang H, Wang L, Bai FW^*. Rheological property of self-flocculating yeast suspension. Biochem Eng J 2010, 52:50-54.

12.   Shen Yu, Ge XM, Bai FW^*. Application of oscillation for efficiency improvement of continuous ethanol fermentation with Saccharomyces cerevisiae under very-high-gravity conditions. Appl Microbiol Biotechnol 2010, 86(1):103-108.

13.   Xue C, Zhao XQ, Bai FW^*. Effect of the size of yeast flocs and zinc supplementation on continuous ethanol fermentation performance and metabolic flux distribution under very high concentration conditions. Biotechnol Bioeng2010, 105(5):935-944.

14.   Li F, Zhao XQ, Ge XM, Bai FW^*. An innovative consecutive batch fermentation process for very high gravity ethanol fermentation with self-flocculating yeast.Appl Microbiol Biotechnol 2009, 84(6):1079-86.

15.   Shen Y, Zhao XQ, Ge XM, Bai FW^*. Metabolic flux and cell cycle analysis indicating new mechanism underlying process oscillation in continuous ethanol fermentation with Saccharomyces cerevisiae under VHG conditions. Biotechnol Adv 2009, 27(6):1118-23.

16.   Zhao XQ, Bai FW^*. Yeast flocculation: New story in fuel ethanol production.Biotechnol Adv 2009, 27(6):849-856.

17.   Zhao XQ, Bai FW^*. Mechanism of yeast stress tolerance and its manipulation for efficient ethanol production. J Biotechnol 2009, 144(1):23-30.

18.   Zhao XQ, Xue C, Ge XM, Yuan WJ, Wang JY, Bai FW^*. Impact of zinc supplementation on the improvement of ethanol tolerance and yield of self-flocculating yeast in continuous ethanol fermentation. J Biotechnol 2009, 139(1):55-60.

19.   Bai FW^*, Ge XM, Anderson WA, Moo-Young M. Parameter oscillation attenuation and mechanism exploration for continuous VHG ethanol fermentation. Biotechnol Bioeng 2009, 102(1):113-21.

20.   Bai FW^*, Anderson WA, Moo-Young M. Ethanol fermentation technologies from sugar and starch feedstocks. Biotechnol Adv 2008, 26(1):89-105.