个人简介

牟伯中，工学博士、教授、博士生导师 (生物化工、应用化学、物理化学)。应用化学研究所所长，生物采油教育部工程研究中心主任，Appl. Environ. Biotech. (2015-) 、微生物学杂志 (2004-) 等刊物编委，中石化采油表面活性剂重点实验室、微生物采油重点实验室等学术委员会委员，享受国务院政府特殊津贴，第十一届、十二届上海市政协委员。

研究领域

微生物脂肽和生物采油技术

主要从事生物物理化学和界面物理化学方面的研究工作。以极端环境多孔介质中微生物活动为背景，研究微生物的生物物理化学过程与界面反应机制，包括分子水平微生物群落结构与功能、微生物的传输过程与界面行为、以及生物分子及其聚集体的结构与性质。发展和建立生物物理化学的先进实验方法和理论体系，为微生物及其功能基因的资源化利用和生物活性物质的开发技术提供科学基础。目前的重点拓延领域是微生物脂肽和生物采油技术。

近期论文

查看导师最新文章 （温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

(1)Gang H-Z, Liu J-F & Mu B-Z* (2015) Binding structure and kinetics of surfactin monolayer formed at the air/water interface to counterions: a molecular dynamics simulation study. BBA-Biomembranes 1848:1955-1962 (2)Zhang Q-Q, Cai B-X, Xu W-J, Gang H-Z, Yang S-Z & Mu, B-Z* (2015) Rebirth of waste cooking oil to novel bio-based surfactants. Scientific Reports 5, 9971 (3)Zhang Q-Q, Cai B-X, Gang H-Z, Yang S-Z & Mu B-Z* (2014) A family of novel bio-based zwitterionic surfactants derived from oleic acid. RSC Adv 4: 38393-38396 (4)She A-Q, Gang H-Z & Mu B-Z* (2012) Temperature influence on the structure and interfacial properties of surfactin micelle: a molecular dynamics simulation study. J Phys Chem B 116: 12735-12743 (5)Gang H-Z, Liu J-F & Mu B-Z* (2011) Molecular dynamics study of surfactin monolayer at the air/water interface. J Phys Chem B 115: 12770-12777 (6)Gang H-Z, Liu J-F & Mu B-Z* (2010) Interfacial behavior of surfactin at the decane/water interface: a molecular dynamics simulation. J Phys Chem B 114: 14947-14954 (7)Gang H-Z, Liu J-F & Mu B-Z* (2010) Molecular dynamics simulation of surfactin derivatives at the decane / water interface at low surface coverage. J Phys Chem B 114: 2728-2737 (8)Li Y, Zou A-H, Ye R-Q & Mu B-Z* (2009) Counterion-induced changes to the micellization of surfactin-C16 aqueous solution. J Phys Chem B 113: 15272 -15277 (9)Yang S-Z, Wei D-Z & Mu B-Z * (2007) Determination of the structure of the fatty acid chain in a cyclic lipopeptide using GC-MS. J Biochem Biophys Meth 70: 519-523 (10)Yang S-Z, Wei D-Z & Mu B-Z* (2006) Determination of the amino acid sequence in a cyclic lipopeptide using MS with DHT mechanism. J Biochem Biophys Meth 68: 69-74 (11)Li C-Y, Zhang D, Li X-X, Mbadinga SM, Yang S-Z, Liu J-F, Gu J-D & Mu B-Z* (2016) The biofilm property and its correlationship with high-molecular-weight polyacrylamide degradation in a water injection pipeline of Daqing oilfield. Journal of Hazardous Materials 304: 388–399 (12)Liang B, Wang L-Y, Zhou Z-C, Mbadinga SM, Zhou L, Liu J-F, Yang S-Z, Gu J-D & Mu B-Z* (2016) High frequency of Thermodesulfovibrio spp. and Anaerolineaceae in association with Methanoculleus spp. in a long-term incubation of n-alkanes-degrading methanogenic enrichment culture. Front Microbiol 7, 1431 (13)Yang G-C, Zhou L, Mbadinga SM, Liu J-F, Yang S-Z, Gu J-D, Mu B-Z* (2016) Formate-dependent microbial conversion of CO2 and the dominant pathways of Methanogenesis in production water of high-temperature oil reservoirs amended with bicarbonate. Front Microbiol 7, 365 (14)Yang G-C, Zhou L, Mbadinga SM, You J, Yang H-Z, Liu J-F, Yang S-Z, Gu J-D & Mu B.Z* (2016) Activation of CO2- reducing methanogens in oil reservoir after addition of nutrient. J Biosci Bioeng 22: 740-747 (15)Bian X-Y, Mbadinga SM, Liu Y-F, Yang S-Z, Liu J-F, Ye R-Q, Gu J-D* & Mu B-Z* (2015) Insights into the anaerobic biodegradation pathway of n-alkanes in oil reservoirs by detection of signature metabolites. Scientific Reports 5, 9801 (16)Liang B, Wang L-Y, Mbadinga SM, Liu J-F, Yang S-Z, Gu J-D & Mu B-Z* (2015) Anaerolineaceae and methanosaeta turned to be turned dominant microorganisms in methanogenic alkanes-degrading enrichment culture afterafter 1300 days. Appl Microbiol Biotechnol Exp. 5, 37 (17)Mbadinga S M, Li K-P, Zhou L, Wang L-Y, Yang S-Z, Liu J-F, Gu J-D & Mu B-Z. (2012) Analysis of alkane-dependent methanogenic community derived from production water of high temperature petroleum reservoir. Appl Microbiol Biotechnol 96:531-42 (18)Wang L-Y, Li W, Mbadinga SM, Liu J-F, Gu J-D & Mu B-Z* (2012) Microbial community shift correlated with the carbon available enriched from an oily sludge over 500 days of methanogenic incubation. Geomicrobiol J 29:716-726 (19)Zhou L, Li K-P, Mbadinga SM, Yang S-Z, Gu J-D & Mu B-Z* (2012) Analyses of n-alkanes degrading community dynamics of a high-temperature methanogenic consortium enriched from production water of a petroleum reservoir by a combination of molecular techniques. Ecotoxicology 21:1680-1691 (20)Mbadinga SM, Wang L-Y, Zhou L, Liu J-F, Gu J-D & Mu B-Z* (2011) Microbial community in Methanogenic enrichment of production water from oil reservoirs. IBB 65: 1-13