个人基本信息

乔文明，男，1967年出生于山西，beat365亚洲体育在线教授，

特种功能高分子材料及其相关技术教育部重点实验室副主任

 

联系地址:上海市梅陇路130号，华东理工大学519信箱，邮编200237

电话：021-64253730; 传真：021-64252914

E-mail: qiaowm@ecust.edu.cn

 

学习和工作经历

2006.04-         在beat365亚洲体育在线工作，教授，博导(材料化工和化学工艺)。

2002.10-2006.04  在日本九州大学工学研究院和先导物质化学研究所工作，

博士后研究员、学术研究员。

1999.10-2002.09  在日本国立九州大学综合理工学院学习，

Department of Applied Science for Electronics and Materials (工学博士)。

1999.04-1999.09  在日本九州大学机能物质科学研究所工作, 访问学者。

1993.07-1999.03  在中国科学院山西煤炭化学研究所工作，助理研究员。

1990.08-1993.06: 在beat365亚洲体育在线化学工程系和中国科学院山西煤炭化学研究所学习，有机化工(硕

1986.09-1990.07: 在南京理工大学学习，化学工程系（学士）。

 

主要研究方向:

有机分子设计和裁剪、控制合成纳米碳材料

纳米碳材料化学与化学过程

高导热、低摩擦材料的设计

第三代先进复合材料的设计化学及实践工程

纳米孔结构可控的高性能活性吸附材料的制备、表面修饰和应用

      超级电容器和高比能锂离子电池等储能材料

      生物质资源的高效综合利用及有机废弃物的资源化利用

大气污染控及工业尾气的无害治理新途径及相关化学和材料化工过程

用于净化水的光催化计设计和实施

 

主要科研项目:

科技部国家科技支撑项目课题2项，科技部863课题1项，自然科学基金重点和面上项目2项，教育部优秀人才培养计划项目1项，教育部高等学校博士博士点基金课题1项，教育部留学回国人员科研启动基金项目，教育部基本科研业务费beat365亚洲体育在线交叉学科与重大项目，化学工程联合国家重点实验室科研仪器项目，化学工程联合国家重点实验室开放基金项目，重质油国家重点实验室开放基金项目，国防科工局xxxx重点项目，国防科工局xxxxxxx项目，教育部985“煤的清洁高效利用与石油化工关键技术”优势学科创新平台学科建设子项目(煤基碳材料化学与化工)，与日本九州大学国际合作研究项目，与天富科技公司合作开发项目。

 

 

主要工作成绩:

自加入工作以来，作为项目负责人和主要加入者，完成包括国家863、国际合作、国家基金、省部委、企业等科研项目20余项。在日本留学和工作期间，作为项目负责人和主要加入者，完成包括日本文部科学省、科学技术振兴机构等科研项目20余项。在Chemical Communications、Journal of Physical Chemistry C、Industrial & Engineering Chemistry Research、Langmuir、Carbon、Microporous and Mesoporous Materials、Electrochemistry Communications、Electrochimica ACTA、Fuel Processing Technology、Energy & Fuels、Materials Letters、Waste Management、Applied Surface Science、Journal of Non-crystalline Solids、Journal of Electroanalytical Chemistry、Journal of Applied Polymer Science、Journal of Materials Science、 Materials Science、Journal of the Brazilian Chemical Society、New Carbon Materials、Acta Metallurgica Sinica等国际、国内核心刊物上发表研究论文100余篇，其中被SCI收录70余篇，被SCI收录引用400余次，他引350余次(单篇引用次数最高59次)。中国发明专利15项，日本发明专利2项。

 

获奖情况及国际学术活动：

2002年获得省部级科技二等奖1项

2007年入选教育部新世纪优秀人才培养计划

2010年获科技部节能减排青年科技大赛一等奖1项(指导)

2010年获得上海市科创杯二等奖1项(指导)

 

2000年-，美国碳材料学会、美国化学会、日本碳材料学会会员

2010年-，担任SCI学术刊物《New Carbon  Materials》编委

2011年，担任The Annual World International Conference on Carbon(世界碳科学年度大会)秘书长

 

在所从事的领域与美国、日本、德国、韩国、澳大利亚等的相关研究机构建立了良好的合作关系。

 

代表性论文：

1           Electrochemical surface oxidation of carbon nanofibers.

Carbon 2010;49(1):96-105.

2           A high-performance carbon derived from polyaniline for supercapacitors.

Electrochemistry Communications 2010;12(10):1279-1282.

3           Poly(ethyleneimine)-loaded silica monolith with a hierarchical pore structure for H₂S adsorptive removal.

Industrial & Engineering Chemistry Research 2010;49(22):11408-11414.

4   Ion transport behavior in triblock copolymer-templated ordered mesoporous carbons with different pore symmetries

Journal of Physical Chemistry C 2010; 114(43):18745-18751.

5   Rapid microwave-assisted synthesis of graphene nanosheet/Co₃O₄ composite for supercapacitors.

Electrochimica ACTA 2010;55(23): 6973-6978.

6   Effect of sulfur on the growth of carbon nanotubes by detonation-assisted chemical vapor deposition

Applied Surface Science 2010;257(3):932-936.

7   Asymmetric capacitance behavior based on the relationship between Ion dimension and pore size.

CTA Physico-Chimica Sinica 2011;27(2): 449-454.

8   Effect of the surface chemistry of activated carbon on its electrochemical properties in electric double layer capacitors.

New Carbon Materials 2010;25(4):248-254.

9   Effect of pre-oxidation on microcracks in graphite foams.

New Carbon Materials 2010;25(4):303-307.

10  Low-temperature selective catalytic reduction of NO with urea supported on pitch-based spherical activated carbon.

Industrial & Engineering Chemistry Research 2010;49(14: 6317-6322.

11  Synthesis and electrochemical performance of a laminated hollow porous carbon.

Materials Letters 2010;64(10) 1187-1189.

12  Effect of pore structure on the electrochemical performance of coal-based activated carbons in non-aqueous electrolyte.

New Carbon Materials 2010;25(2):129-133.

13  Microstructure of carbon derived from mangrove charcoal and its application in Li-ion batteries.

Electrochimica Acta 2010;55(5):1696-1700.

14  Effect of conductive filler on the impedance behaviors of activated carbon based electric double layer capacitors.

 Journal of Electroanalytical Chemistry 2010;642(1):75-81.

15  Role of pore structure of activated carbon fibers in the catalytic oxidation of H₂S.

Industrial & Engineering Chemistry Research 2010;49(7): 3152-3159.

16  Molecular design of polymer precursors for controlling microstructure of organic and carbon aerogels. Journal of Non-crystalline Solids 2009;355(22-23):1252-1258.

17  Facile synthesis and superior anodic performance of ultrafine SnO₂-containing nanocomposites.      

Electrochimica Acta 2009;54(24):5782-5788.

18  In situ growth of a carbon nanofiber/Si composite and its application in Li-ion storage.

New Carbon Materials 2009;24(2):124-130.

19  Three-dimensional mesoporous carbon aerogels: ideal catalyst supports for enhanced H₂S oxidation. Chemical Communications 2009; 26:3898-3900.

20  Structure control of ordered mesoporous carbon spheres prepared from suspension-assist

evaporation-induced self-assembly.

    Journal of Inorganic Materials 2009;24(3):571-576.

21  Pitch spheres stabilized by HNO₃ oxidation and their carbonization behavior.

New Carbon Materials 2010;25(1):29-34.

22  Effect of template and precursor chemistry on pore architectures of triblock copolymer-templated mesoporous carbons.

    Microporous and Mesoporous Materials 2009;121(1-3):58-66.

23  Preparation of polystyrene-based activated carbon spheres with high surface area and their adsorption to dibenzothiophene.

Fuel Processing Technology 2009;90(3):381-387.

24  Preparation of polystyrene-based activated carbon spheres and their adsorption of dibenzothiophene.

New Carbon Materials 2009;24(1):55-60.

25  Effect of pre-oxidation on the pore structure and foaming mechanisms of mesophase pitch based carbon foam.

Journal of Inorganic Materials 2009;24(2):315-319.

26  Carbon foams prepared by supercritical foaming method.
Carbon 2009;47(4):1204-1206.

27  Biomolecular adsorption behavior on spherical carbon aerogels with various mesopore sizes.

Journal of Colloid and Interface Science 2009; 331(1):40-46.

28  Modification polystyrene-based activated carbon spheres to improve adsorption of dibenzothiophene.

Applied Surface Science 2009;255(6):3499-3506.

29       The superior electrochemical performance of oxygen-rich activated carbons prepared from bituminous coal.

Electrochemistry Communications 2008;10(11):1809-1811.

30       Suspension assisted synthesis of triblock copolymer-templated ordered mesoporous carbon spheres with controlled particle size more options.

Chemical Communications 2008;23:2647-2649.

31  Chemical state of nitrogen in carbon aerogels issued from phenol-melamine-formaldehyde gels

Carbon 2008 46(9):1259-1262.

32  Synthesis of mesoporous carbon and its adsorption property to biomolecules

Microporous and Mesoporous Materials 2008;115(3):461-468.

33       Lithium insertion performance of carbon nanofibers anode for lithium ion batteries. 

Electronic Components and Materials 2008;27(11):64-66.

34  Wettability modification of pitch-based spherical activated carbon by air oxidation and its effects on phenol adsorption.

Applied Surface Science 2008;254(9):2659-2665.

35  Surface modification of pitch-based spherical activated carbon by CVD of NH₃ to improve its adsorption to uric acid.

Applied Surface Science 2008;254:6701-6705.

36  Effect of ball-milling technology on the pore structure and electric properties of activated carbon.

J Shanghai Univ (Engl Ed) 2008;12(3):12-16.

37  中间相沥青基泡沫炭的制备、结构及性能

材料科学与工程学报 2008;26(3):390-394.

38  沥青基球状活性炭的热处理改性及其浸润性能的研究

炭素2008; 1:14-19.

39  Waste polyvinylchloride derived pitch as a precursor to develop carbon fibers and activated carbon fibers.

Waste management 2007;27(12):1884-1890.

40  Preparation of mesophase pitch based mesoporous carbons using an imprinting method.

New Carbon Materials 2007;22(3):59-263.

41  Impedance of carbon aerogel/activated carbon composites as electrodes of electrochemical capacitors in aprotic electrolyte.

New Carbon Materials 2007;22(2):153-158.

42  Synthesis of crystalline SiC nanofiber through the pyrolysis of polycarbomethylsilane coated platelet carbon nanofiber.

Applied Surface Science 2007;253(10):4467-4471.

43  Experimental study on the in-plane thermal conductivity of Au nanofilms.

Progress in Natural Science 2007;17(2):212-216.

44  Carbon nanofibers with radially oriented channels.

Carbon  2007;45(1):173-179.

45  Removal of formaldehyde at low concentration using various activated carbon fibers.

Journal of Applied Polymer Science 2007;106(4):2151.

46  Carbonization of waste PVC to develop porous carbon material without further activation.

Waste Management 2006;26(6):592

47  Carbon nanospheres produced in an arc-discharge process.

Carbon 2006;44(1):187.

48  Development of mesophase pitch derived mesoporous carbons through a commercially nanosized template

Langmuir 2006;22:3791.

49  KOH activation of needle coke to develop activated carbons for high performance EDLC.

Energy & Fuels 2006; 20 (4), 1680.

50  Electrochemical capacitances of well-defined carbon surfaces.

Langmuir 2006;22(22):9086.

51  Catalysts in synthesis of carbon and carbon precursors.

Journal of the Brazilian Chemical Society 2006;17(6):1059.

52  Grain size and its effect on thermal conductivity of Pt nanofilms.

Acta Metallurgica Sinica 2006;42:1207.

53  Carbon fibers and films based on biomass resins.

Energy & Fuels 2005;19:2576.

54  Development of carbon precursor from bamboo tar.

Carbon 2005;43(14):3021.

55  Preparation of PVC pitch from waste pipe.

Carbon 2005;43:2022.

56  A conceptual model for the structure of catalytically grown carbon nano-fibers.

Carbon 2005;43:1828.

57  Modification of commercial activated carbon through gasification by impregnated metal salts to develop mesoporous structure.

New Carbon Materials 2005:20(3):198.

58  Molded charcoal prepared from bark charcoal and wood pyrolysis tar.

    Mokuzai Gakkaishi 2005;51(6):406.

59  Toluene adsorption on various activated carbons with different pore structures.

New Carbon Materials 2005;20(4):294.

60  KOH activation of carbon nanofibers.

Carbon 2004;42:1723.

61  Preparation of activated carbon fibers from polyvinyl chloride.

Carbon 2004;42:1327.

62  Preparation of an activated carbon artifact: oxidative modification of coconut shell-based carbon to   

improve the strength.

Carbon 2002;40:351.

63  Preparation of activated carbon form – II. Roles of activated carbons on the strength of activated carbon form using a thermoplastic polymer as binder.

New Carbon Materials 2001;16(2):1.

64  Preparation of an activated carbon artifact: factors influencing strength when using a thermoplastic

polymer as binder.

 Carbon 2001;39(5):2355.

65  Catalytic removal of SO₂ over ammonia-activated carbon fibers.

Carbon 2001;39:1803.

66  The influence on the stabilization of pitch spheres by the immersion of alkyl hydrocarbon solvent.

New Carbon Materials 2001;16(1).

67  Preparation of pitch-based spherical activated carbon with high-ratio of mesopore using chemical-vapor-deposition method.

Journal of Materials Science Letters 2000;19(2):287.

68  Promoter action of sulphur on the stabilization of pitch spheres.

Materials Science 1999;34(24):6003.

69  Effect of hydrogen on the mesopore development of pitch based spherical activated carbon containing iron during activation by steam.

70       Effects of various metals and their loading methods on the mesopore formation in pitch based spherical activated carbon.

Carbon 1999;37:1333.

71  Preparation of pitch based spherical activated carbon with developed mesopore by the aid of ferrocene.

Carbon 1999;37:663.

72       Preparation of pitch based activated carbon with high specific surface area.

Materials Science 1997;32:4447.