1.Kang B,Zhang X, Wu Z, Qi H,Wang Z*. Effect of pH and nonionic surfactant on profile of intracellular and extracellularMonascuspigments.Process biochemistry.2013(In press).
2.Kang B,Zhang X,Wu Z,Qi H,Wang Z*. Solubilization capacity of nonionic surfactant micelles strong influence on export of intracellular pigments inMonascusfermentation.Microb Biotechnol.2013 Feb 20.
3.Hu Z,Zhang X,Wu Z,Qi H,Wang Z*. Perstraction of intracellular pigments by submerged cultivation ofMonascusin nonionic surfactant micelle aqueous solution.Appl Microbiol Biotechnol.2012, 94(1):81-9.
4.Wang Z*,Xu JH,Feng H,Qi H. Fractal kinetic analysis of polymers/nonionic surfactants to eliminate lignin inhibition in enzymatic saccharification of cellulose.Bioresour Technol.2011, 102(3):2890-6.
5.Dai Z,Wang Z*,Xu JH,Qi H. Assessing bioavailability of the solubilization of organic compound in nonionic surfactant micelles by dose-response analysis.Appl Microbiol Biotechnol.2010, 88(1):327-39.
6.Wang Z*,Feng H. Fractal kinetic analysis of the enzymatic saccharification of cellulose under different conditions.Bioresour Technol.2010, 101(20):7995-8000.
7.Pan T,Wang Z*, Xu J, Wu Z, Qi H.Stripping of nonionic surfactant from coacervate phase of cloud point system for lipase separation by Winsor II microemulsion extraction with direct addition of alcohols.Process Biochem.2010, 45(5):771-776
8.Pan T,Wang Z*,Xu JH,Wu Z,Qi H. Extractive fermentation in cloud point system for lipase production bySerratia marcescensECU1010.Appl Microbiol Biotechnol.2010, 85(6):1789-96.
9.Xue Y,Qian C,Wang Z*,Xu JH,Yang R,Qi H. Investigation of extractive microbial transformation in direct nonionic surfactant micelle aqueous solution by response surface methodology. Appl Microbiol Biotechnol.2010, 85(3):517-24.
10.Wang Z*, Xu J, Liang R, Qi H. A downstream process with microemulsion extraction for microbial transformation in cloud point system.Biochem Eng J.2008, 41(1):24-29
11.Zhang W,Wang Z*,Li W,Zhuang B,Qi H. Production ofL-phenylacetylcarbinol by microbial transformation in polyethylene glycol induced cloud point system.Appl Microbiol Biotechnol.2008, 78(2):233-9.
12.Wang Z*,Xu JH,Zhang W,Zhuang B,Qi H. In situ extraction of polar product of whole cell microbial transformation with polyethylene glycol induced cloud point system.Biotechnol Prog.2008, 24(5):1090-5.
13.Wang Z*,Xu JH,Zhang W,Zhuang B,Qi H. Cloud point of nonionic surfactant Triton X-45 in aqueous solution.Colloids Surf B Biointerfaces.2008, 61(1):118-22.
14.Wang Z*, Xu J, Wang L, Zhang W, Zhuang B, Qi H. Improvement the tolerance of baker’s yeast to toxic substrate/product with cloud point system during the whole cell microbial transformation.Enzyme Microb Technol.2007, 41(3):296-301
15.Wang Z*, Wang L, Xu J, Qi H. Enzymatic hydrolysis of penicillin G to 6-aminopenicillanic acid in cloud point system with discrete countercurrent experiment.Enzyme Microb Technol.2007, 41(1-2):121-126
16.Wang Z*, Xu J, Wang L, Bao D, Qi H. Thermodynamic equilibrium control of the enzymatic hydrolysis of penicillin G in a cloud point system without pH control.Industry & engineering chemistry research, 2006, 45(24):8049-8055
17.Wang Z*, Zhao F, Chen D, Li D. Biotransformation of phytosterol to adustra-diene-dione by resting cells of Mycobacterium in cloud point system.Process Biochem.2006, 41(3):557-561
18.Wang Z*, Zhao F, Chen D, Li D. Cloud point system as a tool to improve the efficiency of biotransformation.Enzyme Microb Technol.2005, 36(4):589-594
19.Wang Z*, Zhao F, Hao X, Chen D, Li D. Microbial transformation of hydrophobic compound in cloud point system.J Mol Catal B Enzym.2004, 27(4-6):147-153
20.Wang Z*, Zhao F, Li D. Determination of solubilization of phenol at coacervate phase of cloud point extraction.Colloids and surfaces A: Physicochem Eng Aspects, 2003, 216(1-3):207-214