王正武
姓名:王正武
职称:教授
办公室电话号码:86-21-34205748(6614)
邮箱:zhengwuwang@sjtu.edu.cn
研究方向:食品化学,功能食品,食品安全

 

工作学习简历
       2002年山东大学物理化学(胶体化学)专业获博士学位,2002年7月至2003年在汕头大学做博士后研究,2004年至2006年受聘于江南大学“太湖学者”特聘教授、博士生导师。2007年4月调上海交通大学,功能食品学科带头人。中国化学会、美国化学会成员,国家自然科学基金评审专家、《食品与药品》编委、国内外多个学术期刊审稿人。
 
研究工作
       研究兴趣:功能食品、食品胶体及药品、化妆品中的基础理论及应用实践,食品检测新方法等。特别是化学基础理论在上述领域中的应用。目前开展的主要工作是第三代功能食品的制备及定量构效关系研究。主持或参加国家及省部级纵向项目10余项。其中主持有国家自然科学基金项目3项(批准号20676051、20573048、20473034)。
       目前在研课题有:国家自然科学基金“基于二维晶格模型的混合表面活性剂协同效应”(07~09年)和“泛函数理论精确研究带电胶体粒子双电层间的相互作用”(06~08年)。上海市科委课题面上项目“近红外光谱法现场快速无损检测蔬菜中有机磷农药残留”(07~09年)、“食用肉和饲料中噻虫啉残留量的液相色谱法测定” (08~10年)、重大攻关项目“城市猪肉产品保障安全供给关键共性技术研究”子课题“兽药残留量的表面活性剂集成与化学传感器检测技术”(07~09年),上海市科委纳米科技专项“用于测定莱克多巴胺和沙丁胺醇的纳米复合非标记电化学免疫传感器的研制” (08~10年)。其它 “低嘌呤风味豆制品”,“芭蕉芋、冰粉籽的综合开发”,“高浓度β-胡萝卜素水剂”,“不饱和亚麻酸、亚油酸微乳液制剂”,“果胶的制备与应用”,“中草药有效成分的提取及其在食品、化妆品中的应用”等横向课题和自理课题。
 
代表性论文、著作
       2001年以来在Chem. Phys.,Langmuir,J. Colloid Surf. Sci.,J. Phys. Chem.,J. Math. Chem.,Disper. Sci. Technol.,Separ Sci. Technol.,Rheol Acta ,Chemical J. on Internet, Int Elec J molecul Design,Colloid. Surf. A,Physicochemical Engineering Aspects,Industry of Fine Chemicals,Science in China Series,Chinese Science Bulletin,Chinese J.Chem.,Chinese Chemistry Letter,化学学报,高等学校化学学报,中国化学,科学通报,食品科学等国内外学术刊物上发表研究论文100余篇,其中SCI收录60余篇,EI收录20余篇。如
[1]  Jian-Lei Wang, Zheng-Wu Wang, et al, Preparation and in vitro release test of insulin loaded W/O microemulsion, J. Dispersion Science and Technology, J. Dispersion Science and Technology, 2008,29(5):756-762.
[2]   Fushan Chen, Jiang Wu, Zheng-Wu Wang, Volumetric properties of the binary liquid mixtures of N,N-dimethylacetamide + benzene, + toluene, or + ethyl benzene at different temperatures and atmospheric pressure, Journal of Molecular Liquids, 2008, 140:6~9.
[3]   Ming Zhou, Zheng-Wu Wang, et al, Study on the Interaction between Two Dissimilar Parallel Plates with Functional Theory, Chinese J. Chem. Phys., 2008,21(2): 131~135
[4]   Zheng-Wu Wang,  et al, Study on Electric Double Layer of a Cylindrical Particle with Functional Theoretical Approach, Chinese Journal of Chemistry    2007, 25 (06): 849-856.   
[5]   Zheng-Wu Wang, Xi-Zhang Yi, Calculation of the Molecular Exchanging Energy of Binary Surfactants System on the Surface Monolayer of Aqueous Solution, Science in China Series B: Chemistry, 2007, 50(4):468~475.
[6]   Ming-Yan Gu, Zheng-Wu Wang, et al,Microemulsion of Tween80/n-Butylalcohol/H2O system and its Entrapment Efficiency of ATRA, J. Dispersion Science and Technology 2006, 27(7):949~954.
[7]  Zheng-Wu Wang, Hui-XinYu, et al,, Theoretical Further Study on Synergisms of Binary Surfactant Mixtures in Aqueous solution, J. Dispersion Science and Technology. 2006, 27(5):723~726.
[8]   Zheng-Wu Wang,  et al, Study on the electric double layer of a cylindrical reverse micelle with functional theoretical aproach, Science in China Series B. 2006,49(3) :219~224.
[9]   Zheng-Wu Wang, et al, Quantitative Structure-Property Relationship on Prediction of the Interaction Parameters of Organic Compounds, J. Dispersion Science and Technology. 2006, 27(1):11-14.
[10] Zheng-Wu Wang, et al, Solution of the Poisson-Boltzmann equation about a cylindrical particle: functional theoretical aproach J. Dispersion Science and Technology. 2005, 26(4):517-519.
[11] Zheng-Wu Wang, et al, Effectiveness of Surface Tension Reduction by Nonionic Surfactants with Quantitative Structure-Property Relationship Aproach, J. Dispersion Science and Technology. 2005 26(4): 441-447.
[12] Zheng-Wu Wang, et al, Surface Properties of Gleditsia Saponin and Synergisms of its Binary System, J. Dispersion Science and Technology. 2005 26(3):341-347.
[13] Zheng-Wu Wang, et al,, Spontaneous formation of tubular microstructure vesicles from PTA/SDS system, Chinese Science Bulletin, 2005, 50(9):857~861.
[14] Zheng-Wu Wang,  et al,Study of the Radius of an Electrical Spherical Micelle: Functional Theoretical Aproach, Chinese Journal of Chemistry, 2004, 22:390~394.
[15] Zheng-Wu Wang, et al, Prediction on Critical Micelle Concentration of Nonionic Surfactants in Aqueous Solution: Quantitative Structure-Property Relationship Aproach, Chinese Journal of Chemistry, 2003, 21,1573~1579.
[16] Zheng-Wu Wang, et al, Effectiveness of Surface Tension Reduction by Anionic Surfactants-Quantitative Structure-Property Relationships, J. Dispersion Science and Technology. 2003, 23(5) 653~658.
[17] Zheng-Wu Wang, et al, A Quantitative Structure-Property Relation for the Prediction of Critical Micelle Concentration of Nonionic Surfactants, Colloids and Surfaces A,2002,197:37~45.
[18] Zheng-Wu Wang, et al, The Surface Potential of a Spherical Colloid Particle: Functional Theoretical Aproach, Journal of Colloids and interfaces Science, 2002, 246: 302~308.
[19] Zheng-Wu Wang,  et al, A Functional Theoretical Aproach to the Electrical Double Layer of a Spherical Colloid Particle, Chemical Physics, 2001, 274(1): 57~69.
[20] Zheng-Wu Wang, et al, An Analytical Solution to the Electrical Double Layer Potential for Spherical Particles: A Functional Theoretical Aproach,  J. Dispersion Science and Technology, 2001, 4, 349~354.

 

 

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