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 fromSolibacillus silvestrisW01 and its application in cost-effective harvest of marine microalgaNannochloropsis oceanicaby 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 inScenedesmus 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 variousSaccharomyces cerevisiaestrains 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*. EngineeringindustrialSaccharomyces cerevisiaestrain with theFLO1-derivative gene isolated from the flocculating yeast SPSC01 for constitutive flocculation andfuel 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
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10.Yuan WJ, Chang BL, Ren JG, Liu JP,Bai FW*, Li YY.Consolidated bioprocessing strategy for ethanol production from Jerusalem artichoke tubers byKluyveromyces marxianusunder high gravity conditions.J Appl Microbiol2012, 112(1):38-44.
11.Yu L, Wang H, Wang L,Bai FW*.Rheological property of self-flocculating yeast suspension.Biochem Eng J2010, 52:50-54.
12.Shen Yu, Ge XM,Bai FW*. Application of oscillation for efficiency improvement of continuous ethanol fermentation withSaccharomyces cerevisiaeunder very-high-gravity conditions.Appl Microbiol Biotechnol2010, 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 Biotechnol2009, 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 withSaccharomyces cerevisiaeunder VHG conditions.Biotechnol Adv2009, 27(6):1118-23.
16.Zhao XQ,Bai FW*. Yeast flocculation: New story in fuel ethanol production.Biotechnol Adv2009, 27(6):849-856.
17.Zhao XQ,Bai FW*. Mechanism of yeast stress toleranceand its manipulation for efficient ethanol production.J Biotechnol2009, 144(1):23-30.
18.ZhaoXQ, 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 Biotechnol2009, 139(1):55-60.
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