毛兰群男博导中国科学院化学研究所
电子邮件: lqmao@iccas.ac.cn
通信地址: 北京海淀中关村北一街2号
邮政编码: 100190
研究领域 1. 电化学和(生物)电分析化学
2. 活体微透析及脑神经电分析化学
3. 生物燃料电池
教育背景
学历
学位1998 年华东师范大学获理学博士学位
出国学习工作
工作经历
工作简历 1998 年 9 月 - 2000 年 4 月,日本 BAS 公司科研开发部职员
2000 年 5 月 - 2002 年 11 月,东京工业大学和松下电器博士后
2002 年 10 月回中科院化学研究所工作,现任研究员,博士生导师
2002 年入选中国科学院 “ **** ”
2006 年获国家基金
社会兼职
教授课程
专利与奖励
奖励信息“碳纳米管生物电化学分析新方法和新技术的研究”2005年度中国分析测试协会二等奖。
专利成果
出版信息
发表论文H. Zhou Y. Lin P. Yu L. SuL. Mao
Doping Polyaniline with Pristine Carbon Nanotubes into Electroactive Nanocomposite in Neutral and Alkaline Media.
Electrochem. Commun. in press.
Y. Ma H. Zhao P. Yu L. Su D. Zhang L. Mao
Electrochemical Sensing of ATP with Synthetic Cyclophane as Recognition Elements
Science in
L. Zhang H. Zhou P. Yu L. Su L. Mao
Voltammetric Determination of Water with Inner Potential Reference and Variable Linear Range Based on Structure- and Redox-Controllable Hydrogen-Bonding Interaction between Water and Quinones.
Electrochem. Commun. in press.
Y. Lin P. YuL. SuN. Zhu L. Mao
A Physiologically Relevant On-Line Electrochemical Method for Continuous And Simultaneous Monitoring of Striatum Glucose And Lactate Following Global Cerebral Ischemia/Reperfusion.
Anal. Chem.2009812067–2074.
X. Li L. Zhang L. Su T. Ohsaka L. Mao
A Miniature Glucose/O2Biofuel Cell with a High Tolerance against Ascorbic Acid
Fuel Cells2009185-91.
K. Liu Y. Lin P. Yu L. Mao
Dynamic regional changes of extracellular ascorbic acid during global cerebral ischemia: studied with in vivo microdialysis coupled with on-line electrochemical detection
Brain Res.20091253161-168.
Y. Jiang H. Zhao N. Zhu Y. Lin P. Yu L. Mao
A Simple Assay for Direct Colorimetric Visualization of TNT Down to Picomolar Level by Using Gold Nanoparticles.
Angew Chem. Int. Ed. 2008 47 8601-8604.
J. Yan Y. Zhou H. Zhou L. Su L. Mao D. Zhang D. Zhu
An Electrochemical Sensor for 34-Dihydroxyphenylacetic Acid with Carbon Nanotube Transducer and Synthetic Cyclophane Recognition Element.
Chem. Commun.2008 4330 - 4332.
Y. Lu N. Zhu P. Yu L. Mao
Aptamer-Based Electrochemical Sensors That Are Not Based on the Target Binding-Induced Conformational Change of Aptamers
Analyst20081331256-1260.
L. Xiang Z. Zhang P. Yu J. Zhang L. Su T. Ohsaka L. Mao
In Situ Cationic Ring-Opening Polymerization and Quaternization Reactions to Confine Ferricyanide onto Carbon Nanotubes: A General Approach to Development of Integrative Nanostructured Electrochemical Biosensors
Anal. Chem.2008806587 - 6593.
J. Yan H. Zhou P. Yu L. Su L. Mao
Rational Functionalization of Carbon Nanotubes into Electrochemical Devices with Striking Applications
Adv. Mater.2008202899 - 2906.
N. Zhang J. Liu F. Ma L. Yu Y. Lin K. LiuL. Mao
Change of extracellular ascorbic acidin the brain cortex following ice water vestibular stimulation:an on-line electrochemical detection coupled with in vivo microdialysis sampling for guinea pigs
Chin. Med. J.20081211120-1125.
X. Li H. Zhou P. Yu L. Su T. Ohsaka L. Mao
A Miniature Glucose/O2Biofuel Cell with Single-Walled Carbon Nanotubes-Modified Carbon Fiber Microelectrodes as the Electrodes
Electrochem. Commun.200810851-854.
J. Yan H. Zhou P. Yu L. Su L. Mao
A General Electrochemical Approach to Deposition of Metal Hydroxide/Oxide Nanostructures onto Carbon Nanotubes.
Electrochem. Commun.200810761-765.
Y. Lu X. Li L. Zhang L. Su L. Mao
Readily Regenerated Aptamer-Based Electrochemical Sensors with Electrode-Confined Redox-Labeled Complementary DNA as Probe.
Anal. Chem.2008801883-1890.
K. Liu Y. Lin L. Xiang L. Su L. Mao
Comparative study of Change in Extracellular Ascorbic Acid in Different Global and Focal Cerebral Ischemia/Reperfusion Models with in vivo microdialysis combined with on-line electrochemical detection.
Neurochem. Int. 200852 1247-1255.
P. Yu J. Yan L. Su J. Zhang L. Mao
Rational Functionalization of Carbon Nanotube/Ionic Liquid Bucky Gel with Dual Tailor-Made Electrocatalysts for Four-Electron Reduction of Oxygen
J. Phys. Chem.C2008112 2177-2182.
Y. Lin K. Liu P. Yu L. Xiang X. Li L. Mao
A Facile Electrochemical Method for Simultaneous On-line Measurements of Glucose and Lactate in Brain Microdialysate with Prussian Blue as the Electrocatalyst for Reduction of Hydrogen Peroxide
Anal. Chem.2007799577-9583.
M. Zhang K. Liu L. Xiang Y. Lin L. Su L. Mao
Carbon Nanotube-Modified Carbon Fiber Microelectrodes for In Vivo Voltammetric Measurement of Ascorbic Acid in Rat Brain
Anal. Chem .2007796559 -6565 .
Wu H.; Zhang D.; Su L.; Ohkubo K.; Zhang C.; Yin S.; Mao L.; Shuai Z.; Fukuzumi S.; Zhu D.
Electron Transfer within the Substituted Tetrathiafulvalene-Quinone Dyads: Facilitated by Metal Ion and Photomodulation in the Presence of Spiropyran .
J. Am. Chem. Soc.2007129 6839-6846.
P. Yu L. Su J. Zhang L. Mao
Use of Ionic Liquid Droplet as Micro-Media for Cost-Effective Electrodeposition of Metal Nanoparticles.
Electrochem. Commun.200791139-1144.
F. Gao Y. Yan L. Su L. Wang L. Mao
An Enzymatic Glucose/O 2 Biofuel Cell: Preparation Characterization and Performance in Serum.
Electrochem. Commun.20079989-996.
L. Xiang Y. Lin P. Yu L. Su L. Mao
Laccase-Catalyzed Oxidation and Intramolecular Cyclization of Dopamine: A New Strategy for Selective Determination of Dopamine with Laccase/Carbon Nanotube-Based Electrochemical Biosensors.
Electrochim. Acta2007524144-4152.
Y. Yan L. Su L. Mao
Multi-Walled Carbon Nanotube-Based Glucose/O 2 Biofuel Cell with Glucose Oxidase and Laccase as Biocatalysts.
J. Nanosci. Nanotechnol.200771625–1630.
K . Gong P. Yu L . Su S . Xiong L . Mao
Polymer-Assisted Synthesis of Manganese Dioxide/Carbon Nanotube Nanocomposite with Excellent Electrocatalytic Activity toward the Reduction of Oxygen.
J. Phys. Chem. C20071111882-1887.
Y. Yan W. Zheng L. Su L. Mao
Carbon Nanotube-Based Glucose/O 2 Biofuel Cells.
Adv. Mater.2006182639–2643.
G. Wen J. Yan Y. Zhou D. Zhang L. Mao D. Zhu
Photomodulation of the electrode potential of a photochromic spiropyran-modified Au electrode in the presence of Zn 2+ : a new molecular switch based on the electronic transduction of the optical signals.
Chem. Commun.20063016.
L. Su L. Mao
Gold Nanoparticle/Alkanedithiol Conductive Films Self-Assembled onto Gold Electrode: Electrochemistry and Electroanalytical Application for Voltammetric Determination of Trace Amount of Catechol.
Talanta20067068.
L. Su F. Gao L. Mao
Electrochemical Properties of Carbon Nanotube (CNT) Film Electrodes through Controllable Adsorption of CNTs onto Alkanethiol Monolayer Self-Assembled on Au Electrodes.
Anal. Chem.2006782651-2657.
W. Zheng Q. Li L. Su Y. Yan L. Mao
Direct Electrochemistry of Multi-Copper Oxidases at Carbon Nanotubes Noncovalently Functionalized with Cellulose Derivatives.
Electroanalysis200618587-594.
Y. Tian L. Mao T. Ohsaka
Electrochemical Superoxide Anion Biosensors (Invited Review).
Current Analytical Chemistry2006251-58.
M. Zhang L. Su L. Mao
A Strategy through Supramolecular surfactant functionalization of Carbon Nanotubes for Layer-by-Layer Assembly of CNT Multilayer Film and Fabrication of Gold Nanoparticle CNT Hybrid.
Carbon200644276-283.
K. Gong X. Zhu R. Zhao S. Xiong L. Mao C. Chen
Rational Attachment of Synthetic Triptycene Orthoquinone onto Carbon Nanotubes for Electrocatalysis and Sensitive Detection of Thiols.
Anal. Chem.2005778158 - 8165 .
K. Gong Y. Yan M. Zhang L. Su L. Mao
Electrochemistry and Electroanalytical Applications of Carbon Nanotubes: A Review.
Anal. Sci.2005211383-1393 .
M. Zhang K. Liu K. Gong L. Su Y. Chen L. Mao
Continuous On-line Monitoring of Extracellular Ascorbate Depletion in the Rat Striatum Induced by Global Ischemia with Carbon Nanotube-Modified Glassy Carbon Electrode Integrated into A Thin-Layer Radial Flow Cell.
Anal. Chem.2005776234 - 6242 .
P. Yu Y. Lin L. Xiang L. Su J. Zhang L. Mao
Molecular Films of Water-Miscible Ionic Liquids Formed onto Glassy Carbon Electrode: Characterization and Electrochemical Applications.
Langmuir2005219000-9006.
Y. Yan W. Zheng M. Zhang L. Wang L. Su L. Mao
Bioelectrochemically Functional Nanohybrids through Co-assembling of Proteins and Surfactants onto Carbon Nanotubes: Facilitated Electron Transfer of Assembled Proteins with Enhanced Faradic Response
Langmuir2005216560-6566.
Y. Yan M. Zhang K. Gong L. Su Z. Guo L. Mao
Adsorption of Methylene Blue Dye onto Carbon Nanotubes: A Route to Electrochemically Functional Nanostructure and Its Layer-by-Layer Assembled Nanocomposite
Chem. Mater.2005173457-3463.
W. Zheng Q. Li Y. Yan L. Su L. Mao
Functionalization of Carbon Nanotubes for Direct Electrochemistry of Horseradish Peroxidase.
Indian J. Chem. A200544A950-955.
M. Zhang L. Mao
Enzyme-Based Amperometric Biosensors for Continuous and On-line Monitoring of Cerebral Extracellular Microdialysate(A Review).
Frontier in Bioscience200510345-352.
M. Zhang K. Gong H. Zhang L. Mao
Electrostatic Layer-by-Layer Assembled Carbon Nanotubes for Selective Determination of Dopamine in The Presence of Ascorbic Acid.
Biosens. Bioelectron.2005201270-1276.
Y. Tian L. Mao T. Okajima T. Ohsaka
A carbon fiber microelectrode-based third-generation biosensor for superoxide anion.
Biosens. Bioelectron.200521 557-564.
K. Gong M. Zhang Y. Yan L. Su L. Mao S. Xiong Y. Chen
Sol-Gel-Derived Ceramic-Carbon Nanotube Nanocomposite Electrodes: Tunable Electrode Dimension and Potential Electrochemical Applications.
Anal. Chem.2004766500-6505.
M. Zhang Y. Yan K. Gong L. Mao Z. Guo Y. Chen
Electrostatic Layer-by-Layer Assembling of Carbon Nanotube Multilayer Film and Its Electro-Catalytic Activity for O 2 reduction.
Langmuir2004208781-8785.
K. Gong Y. Dong S. Xiong Y. Chen L. Mao
Novel Electrochemical Method for Sensitive Determination of Homocysteine with Carbon Nanotube-Based Electrodes.
Biosens. Bioelectron.200420253-259.
发表著作L. Mao Y. Tian T. Ohsaka Superoxide Electrochemical Sensors and Biosensors: Principal Development and Applications (one Chapter). Elsevier in press (2008).
科研活动
科研项目
参与会议
合作情况
项目协作单位
指导学生李丛姗硕士研究生070302-分析化学80032-化学研究所
王翔硕士研究生070302-分析化学80032-化学研究所
张海枝硕士研究生070302-分析化学80032-化学研究所
赵灵芝硕士研究生070302-分析化学80032-化学研究所
钱钦硕士研究生070302-分析化学80032-化学研究所
程翰俊硕士研究生070302-分析化学80032-化学研究所
沈莹硕士研究生070302-分析化学80032-化学研究所
张自品博士研究生070302-分析化学80032-化学研究所
