张强  博士, 副教授 (英文版)

 

清华大学 化学工程系

北京市绿色反应工程与工艺实验室

 

电话:+86-1062789041

传真:+86-1062772051

Emailzhangqiangflotu@tsinghua.edu.cn

zhang-qiang@mails.tsinghua.edu.cn

zhangqiangflotu@gmail.com

 

 

Postdoc Fritz HaberInstitute of the Max Plank Society, Germany 2011

Research Associate Case Western Reserve University, USA 2010

博士 清华大学化学工程与技术,中国 2009

学士 清华大学化学工程与工艺,中国 2004

 

主要奖励:

2011 全国优秀博士论文

2011 Best Poster on Auunual World Conference on Carbon

2010 北京市优秀博士论文

2009 清华大学优秀博士论文一等

2008 中国材料学会优秀墙报

2008 清华大学特等奖学金,学术新秀

2008 Japan Carbon Award for Students

 

 

 

 

研究内容

以可持续发展,绿色化学为理念,发展物质转化中原子重组、分子组装、宏观流动以及过程放大、能?戳煊蛴τ玫男录际酢⒅铝τ诶枚嘞喾从τ肟帕<际踅饩鋈死喾⒄构讨行挛侍猓乇鹗侵泄缁峋梅⒄构讨械哪茉础⒉牧嫌牖肪澄侍狻Q芯苛煊蚣性谀茉椿ぁ⒍嗉赌擅捉峁挂约拔藁擅撞牧吓恐票赣胗τ眉际酢K芯康姆较虬ǎ?span lang=EN-US>

 

1) 探索纳米尺度上催化新原理,利用纳米材料发展高效化工过程

纳米材料的特性体现了诸多特性。当材料特征尺寸到纳米或亚埃水平,其能带结构分裂,量子效应体现,从而为发展多相催化提供了理论技术。利用特异纳米材料的表面特殊电子结构、晶面效应、分子台阶等新特性,进而在新能源领域中呈现出优异的活性。利用纳米炭为平台,通过掺杂或接枝活性官能团、纳米颗粒,进而调变电子结构,发展新型脱绿色催化过程,满足新能源过程对于基础催化材料的需求。通过调变纳米材料的杂化,设计出多级结构的催化材料,并进一步利用纳米效应以及催化原理,通过催化材料的微纳结构调变,设计出高效多级催化材料。

 

2) 发展新型微纳复合结构的先进功能材料合成方法论

为发展新型能源以及催化材料,进一步深入一维碳纳米管为平台的基础设计,拓展多级复杂有序纳米材料合成方法论,并为发展电化学储能、热电储能、机械储能、以及多相催化提供化工材料平台。

 

3) 发展纳米反应器技术,开发高效先进材料与能源转化新过程。

利用多级纳米材料为平台,发展基于物理限域高温热稳定好的新型催化剂。利用定向碳纳米管为平台,发展纳米反应器;利用复杂纳米结构限域,发展纳米反应器内材料合成以及能源转化新过程;利用多级流化床作为反应器,实现例如多晶硅、纳米炭的宏量制备。

 

4) 开发用于储能的炭基复合材料,并探索其宏量制备技术。

炭基材料是当下制备高性能超级电容器、锂电池、燃料电池的关键。结合已有的碳纳米管批量制备技术,发展新型炭基纳米复合材料,拓展其在新能源,尤其是先进电池领域的应用。结合化工过程放大经验,发展先进能源材料宏量制备技术。

 

 

 

 

学术期刊同行评议:

Invited reviewer for Carbon, Journal of Physical Chemistry, AIChE Journal, Energy and Environmental Science, Journal of Materials Chemistry, Green Chemistry, CrystEngComm, Soft Matter, Dalton Transcations, Polymer Chemistry, RSC Advances, New Journal of Chemistry, Journal of the Electrochemical Society, Nanotechnology, Catalysis Today, Fuel, Chemical Engineering Journal, Journal of Chemical Technology and Biotechnology, Chemical Engineering & Technology, Chemical Engineering Communications, Catalysis Letters, Journal of Molecular Catalysis A: Chemical, Nano, Materials Science & Engineering B, Journal of Membrane Science, Journal of Applied Polymer Science, Polymer Engineering & Science, Applied Surface Science, Materials Chemsitry and Physics, Journal of Materials Science, Journal of Physics D: Applied Physics, Solar Energy, New Carbon Materials, Journal of Natural Gas Chemistry, Journal of Phyisics and Chemistry of Solids; Colloids and Surfaces A, Fullerenes, Nanotubes and Carbon Nanostructures.

 

 

代表性论文

l      Zhang Q, Huang JQ, Zhao MQ, Qian WZ, Wei F. Carbon nanotube mass production: Principles and processes. ChemSusChem 2011, 4(7): 864-889. (Invited Review) [Publisher PDF]

l      Zhao MQ, Zhang Q, Huang JQ, Wei F. Hierarchical nanocomposites derived from nanocarbons and layered double hydroxides - Properties, synthesis, and applications Advanced Funcational Materials 2011, 10.1002/adfm.201102222. (Invited Review)

l      Rinaldi A, Tessonnier JP, Schuster ME, Blume R, Girgsdies F, Zhang Q, Jacob T, Abd-Hamid SB, Su DS, Schlögl R. Dissolved carbon controls the initial stage of nanocarbon growth. Angewandte Chemie International Edition 2011, 50(14): 3313-3317. [Publisher PDF]

l      Lv RT, Cui TX, Jun MS, Zhang Q, Cao AY, Su DS, Zhang ZJ, Yoon SH, Miyawaki J, Mochida I, Kang FY. N-doped carbon nanotube-graphene hybrid nanosctructure using as support material for fuel cell catalyst. Advanced Functional Materials. 2011, 21(5): 999-1006. [Publisher PDF]

l      Zhang RF, Wen Q, Qian WZ, Su DS, Zhang Q, Wei F. Super-strong ultralong carbon nanotubes for mechanical energy storage Advanced Materials 2011, 23(30): 3387-3391. [Publisher PDF]

l      Jia XL, Yan CZ, Chen Z, Wang RR, Zhang Q, Guo L, Wei F, Lu YF. Direct growth of flexible LiMn2O4/CNTs lithium-ion cathodes. Chemical Communications, 2011, 47(34):9669-9671. [Publisher PDF]

l      Zhu, W.C.; Wang, X.L.; Zhang, X.; Zhang, H.; Zhang, Q. Hierarchical laminar superstructures of rhombic priceite (Ca4B10O19·7H2O): Facile hydrothermal synthesis, shape evolution, optical and thermal decomposition properties. Crystal Growth & Design 2011, 11(7):2935-2941. [Publisher PDF]

l      Zhang Q, Zhao MQ, Tang DM, Li F, Huang JQ, Liu BL, Zhu WC, Zhang YH, Wei F. Carbon nanotube double helix. Angewandte Chemie International Edition. 2010, 49(21):3642-3645; Angewandte Chemie 2010, 122(21):3724-3727. [Publisher PDF]
Highten by
Angewandte Chemie International Edition Hotpaper: http://www.wiley-vch.de/publish/dt/ journals/bySubject/2001/news/13528/?sID=5lqrkh6d4res5hk5h0f439s713
Nature China: http://www.nature.com/nchina/2010/100428/full/nchina.2010.60.html
Nature Asia Materials: http://www.natureasia.com/asia-materials/highlight.php?id=717
Inorganic materials with double-helix structures. Angewandte Chemie International Edition 2011, 50(21):4747
4750.

l      Zhang Q, Zhao MQ, Huang JQ, Nie JQ, Wei F. Mass production of aligned carbon nanotube arrays grown on clay by fluidized bed catalytic chemical vapor deposition. Carbon 2010, 48(4):1196-1209. [Publisher PDF]

l      Yu DS#, Zhang Q#, Dai LM. Highly-efficient metal-free growth of nitrogen-doped single-walled carbon nanotubes on plasma-etched substrates for oxygen reduction. Journal of the American Chemical Society 2010, 132(43):15127-15129. (# equal contribution) [Publisher PDF]

l      Zhao MQ, Zhang Q, Zhang W, Huang JQ, Zhang YH, SU DS, Wei F. Embedded high density metal nanoparticles with extraordinary thermal stability derived from guest-host mediated layered double hydroxides. Journal of the American Chemical Society 2010, 132(42): 1473914741. [Publisher PDF]

l      Zhao MQ, Zhang Q, Jia XL, Huang JQ, Zhang YH, Wei F. Hierarchical composites of single/double walled carbon nanotubes intercrossed flakes from directly carbon deposition on layered double hydroxides. Advanced Functional Materials 2010, 20(4):677-685. (Featured on cover) [Publisher PDF]

l      Fan ZJ, Yan J, Zhi LJ, Zhang Q, Wei T, Feng J, Zhang ML, Qian WZ, Wei F. Three-dimensional carbon nanotube/graphene sandwich and its application as electrode in supercapacitors. Advanced Materials 2010, 22(33):37233728. [Publisher PDF]

l      Zhao MQ, Zhang Q, Huang JQ, Nie JQ, Wei F. Advanced materials from natural resources : Facile synthesis aligned carbon nanotubes on wollastonites ChemSusChem 2010, 2010,3(4):453-459. [Publisher PDF]

l      Xu GH, Zhang Q, Huang JQ, Zhao MQ, Zhou WP, Wei F. A two-step shearing strategy to disperse long carbon nanotubes from vertically aligned carbon nanotube arrays for transparent conductive films Langmuir 2010, 26(4):2798-2804. [Publisher PDF]

l      Zhao MQ, Zhang Q, Huang JQ, Wei F. Layered double hydroxides as catalysts for the efficient growth of high quality single walled carbon nanotubes in a fluidized bed reactor. Carbon 2010, 48(11):3260-3270. [Publisher PDF]

l      Huang JQ, Zhang Q, Zhao MQ, Xu GH, Wei F. Patterning of hydrophobic three-dimensional carbon nanotube architectures by a pattern transfer approach. Nanoscale 2010, 2(8):1401-1404. (Featured on cover) [Publisher PDF]

l      Wen Q, Qian WZ, Nie JQ, Cao AY, Ning GQ, Wang Y, Hu L, Zhang Q, Huang JQ, Wei F. 100 mm long, semiconducting, triple-walled carbon nanotubes. Advanced Materials 2010, 22(16):1867-1871. (Featured on cover) [Publisher PDF]

   Highten by
Nature Asia Materials: http://www.natureasia.com/asia-materials/highlight.php?id=664

l      Zhu WC, Zhang GL, Li J, Zhang Q, Piao XL, Zhu SL. Mesoporous SrCO3 hierachical submicron spheres derived from reaction-limited aggregation induced rod-to-dumbbell-to-sphere self-orgniazation. CrystEngComm 2010,12(6):1795-1802. [Publisher PDF]

l      Zhang Q, Zhao MQ, Liu Y, Cao AY, Qian WZ, Lu YF, Wei F, Energy-Absorbing Hybrid Composites Based on Alternate Carbon Nanotube and Inorganic Layers. Advanced Materials 2009, 21(28):2876-2880. (Selected as Advances in Advance) [Publisher PDF]

Highten by Chinese Science Bulletin 2009, 54(2): 1794.
Nature China http://www.nature.com/nchina/2009/090812/full/nchina.2009.163.html
Materials Reviews:
http://www.materialsviews.com/matview/display/en/829/TEXT
http://materialsviewschina.cn/2009/11/elasticity-of-carbon-nanotubes-clay-composite-material/

l      Zhang Q, Zhao MQ, Liu Y, Wang Y, Qian WZ, Wei F. Vertically aligned carbon nanotube arrays grown on a lamellar catalyst by fluidized bed catalytic chemical vapor deposition. Carbon 2009, 47(11):2600-10. [Publisher PDF]

l      Zhang Q, Xu GH, Huang JQ, Zhou WP, Zhao MQ, Wang Y, Qian WZ, Wei F. Fluffy carbon nanotubes produced by shearing vertically aligned carbon nanotube arrays. Carbon 2009, 47(2): 538-541. [Publisher PDF]

l      Zhang Q, Zuo YZ, Han MH, Wang JF, Jin Y, Wei F. Long carbon nanotubes intercrossed Cu/Zn/Al/Zr catalyst for CO/CO2 hydrogenation to methanol/ dimethyl ether. Catalysis Today  2010, 150(1-2):55-60.[Publisher PDF]

l      Zhang Q, Huang C, Jiang D, Wei XB, Qian Z, Wei F. Particle measurement sensor for in situ determination of phase structure of fluidized bed. Particuology 2009, 7(3): 175-182. [Publisher PDF]

l      Huang JQ, Zhang Q, Zhao MQ, Wei F. Process Intensification by CO2 for High quality carbon nanotube forest growth: Double walled carbon nanotube convexity or single walled carbon nanotube bowl? Nano Research 2009, 2(11):872-881.

l      Shu Q, Zhang Q, Xu GH, Wang JF. Preparation of biodiesel using s-MWCNT catalysts and the coupling of reaction and separation. Food and Byproducts Processing. 2009, 87(3): 164-170.

l      Zuo YZ, Zhang Q, Han MH, Wang JF, Wang TF, Wang DZ, Jin Y. The sintering of a Cu-based methanol synthesis catalyst Chinese Journal of Catalysis 2009, 30(7):624-630.

l      Liu Y, Qian WZ, Zhang Q, Ning GQ, Wen Q, Luo GH, Wei F. The confined growth of double-walled carbon nanotubes in porous catalysts by chemical vapor deposition Carbon 2008, 46(14): 1860-1868.

l      Liu Y, Qian WZ, Zhang Q, Cao AY, Li ZF, Zhou WP, Ma Y, Wei F. Hierarchical agglomerates of carbon nanotubes as high-pressure cushions. Nano Letters 2008, 8(5): 1323-1327.

l      Huang JQ, Zhang Q, Xu GH, Qian WZ, Wei F. Substrate morphology induced self-organization into carbon nanotube arrays, ropes, and agglomerates. Nanotechnology 2008, 19(43): 435602

l      Zhu WC, Zhang Q, Xiang L, Wei F, Sun X, Piao X, Zhu SL. Flux-assisted thermal conversion route to pore-free high crystallinity magnesium borate nanowhiskers at a relatively low temperature. Crystal Growth and Design. 2008, 8(8): 2938-2945.

l      Zhang Q, Huang JQ, Zhao MQ, Wang Y, Qian WZ, Wei F. Radial growth of vertically aligned carbon nanotube arrays from ethylene on ceramic spheres. Carbon 2008, 46(8): 1152-1158. (Featured on cover) [Publisher PDF]

l      Wei F, Zhang Q, Qian WZ, Yu H, Wang Y, Luo GH, Xu GH, Wang DZ. The mass production of carbon nanotubes using a nano-agglomerate fluidized bed reactor: a multiscale space-time analysis Powder Technology 2008, 183(1): 10-20. (Invited Review) [Publisher PDF]

l      Huang JQ, Zhang Q, Wei F, Qian WZ, Wang DZ, Hu L. Liquefied petroleum gas containing sulfur as the carbon source for carbon nanotube forests. Carbon 2008, 45(2): 291-296.

l      Zhang Q, Zhou WP, Qian WZ, Xiang R, Huang JQ, Wang DZ, Wei F. Synchronous growth of vertically aligned carbon nanotubes with pristine stress in the heterogeneous catalysis process. Journal of Physical Chemistry C 2007, 111(40): 14638-14643. [Publisher PDF]

l      Zhang Q, Huang JQ, Wei F, Xu GH, Wang Y, Qian WZ, Wang DZ. Large scale production of carbon nanotube arrays on the sphere surface from liquefied petroleum gas at low cost. Chinese Science Bulletin 2007, 52(21): 2896-2902. (Featured on cover) [Publisher PDF]

l      Zhang Q, Qian WZ Wen Q, Liu Y, Wang DZ, Wei F. The effect of phase separation in Fe/Mg/Al/O catalysts on the synthesis of DWCNTs from methane. Carbon 2007, 45(8): 1645-1650. [Publisher PDF]

l      Zhang Q, Qian WZ, Yu H, Wei F, Wen Q. Highly selective synthesis of carbon nanotubes with totally hollow channel and/or with totally filled copper nanowires. Applied Physics A 2007, 86(2): 265-269.

l      Xiang R, Luo GH, Qian WZ, Zhang Q, Wang Y, Wei F, Li Q, Cao AY. Encapsulation, compensation, and substitution of catalyst particles during continuous growth of carbon nanotubes Advanced Materials 2007, 19(17): 2360-2363.

l      Yu H, Zhang Q, Zhang QF, Wang QX, Ning GQ, Luo GH, Wei F. Effect of the reaction atmosphere on the diameter of single-walled carbon nanotubes produced by chemical vapor deposition. Carbon 2006, 44(9): 1706-1712.

 

 

 

 

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专利申请                                                        

中国专利

1. 魏飞张强周卫平徐光辉杨州骞伟中罗国华 气凝胶碳纳米管及其制备方法和应用. CN 1884058 A (已授权)

2. 魏飞,张强,周卫平,骞伟中 一种超长定向的碳纳米管丝/薄膜及其制备方法. CN 1948144 A (已授权)

3. 魏飞,张强,钱震,蒋东,黄苍,魏小波 一种颗粒状测量装置及其原位测量方法. CN 1877337 A

4. 魏飞,张强,赵梦强,骞伟中,王垚,罗国华 一种碳纳米管阵列/层状材料复合物及其制备方法. CN 10107934A (已授权)

5. 魏飞,张强,黄佳琦,骞伟中,王垚,罗国华 一种基于化学气相沉积制备碳纳米管阵列的方法 CN 101077773A

6. 魏飞,张强,黄佳琦,朱万诚 一种基于氧化处理从基板表面分离碳纳米管阵列的方法 CN 101348248A

7. 魏飞,张强,赵梦强 一种在颗粒内表面制备碳纳米管阵列的方法 CN 101348249A

8. 魏飞,张强,赵梦强 一种在片状材料表面制备小直径碳纳米管阵列的方法 200910092930.3

9. 魏飞,张强,赵梦强 基于层状双羟基金属氢氧化物制备单双壁碳纳米管的方法 200910092929.0

PCT专利

1. Wei F, Zhang Q, Zhou WP, Xu GH, Yang Z, Qian WZ, Luo GH, Wang Y. Aerogel carbon nanotube and its preparation method and application. WO2008000163-A1

2. Wei F, Zhang Q, Zhou WP, Qian WZ. Ultralong orientational carbon nano-tube filament/film and its preparation method. WO2008055421-A1

 

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