男，汉族，1958年4月出生于江西波阳，无党派公民。现从事专业为化学材料。1998年10月中科院长春应用化学研究所毕业并获理学博士学位，德国马尔堡大学化学系和美因茨大学化学系做博士后研究，美国Akron大学高分子科学系做博士后研究。2004年，特聘为江西师范大学教授和硕士生导师，2006年始兼职南昌大学教授及博士生导师。曾获得美国化学会ACS优秀论文奖、法兰克福国际纳米纤维大会优秀墙报奖。

江西省自然科学二等奖（2005年），中国科学院科学进步三等奖（1990年），中科院长春应用化学研究所优秀博士生一等奖（1998年）、江西省先进工作者（2005年）。2004年享受国务院特殊津贴。共申请了6项国内、国际专利，发表科学论文80篇，其中50余篇为SCI或EI收录, 多篇有影响力的论文发表在"Advanced Materials"、"J. Am. Chem. Soc."、"Chem. Mater."、“Advanced Functional Materials”和"Macromolecules"等国际著名学术期刊上，ISI可检索到论文被引用580余次，H指数为12。

侯博士的主要研究方向是聚合物纳米纤维。纳米纤维的直径非常小（大约是头发直径的千分之一），所构成的膜或布不仅有优异的过滤性能（滤除尘埃、细菌、病毒），而且比表面积大，能有效地吸附化学毒气，功能化的纳米纤维膜或布还可进一步使毒气分解。高强度的纳米纤维膜或布将被用来制作舒适的时装、高效的反恐服、军服、医用卫生服等；高效的过滤器用在飞机、空气不良地区建筑物的空气净化或内循环、超静厂房、涡轮发电厂房、战地坦克发动机等的空气净化；也可用在污水处理、废气除尘等环保工程上。侯博士目前主持科技部2004年度“973”前期预研重大基础研究项目1项、国家自然科学基金项目2项、教育部重大科技项目一项、省厅级重大项目3项、国际横向合作项目1项，江西师范大学特聘教授科研启动项目1项。

在省委和省政府领导的亲切关怀下、在省教育厅和科技厅及江西师范大学的高强度支持下，侯博士于04年组建了江西省高校纳米纤维工程技术研究中心，现有4位教授（博士）、2位副教授（1位博士）、2位助研组成的、求真务实的学术研究团队，主要从事高性能聚合物材料、聚合物纳米纤维、碳纳米纤维和碳纳米结构材料的理论与应用研究。该中心的研究工作证实用电纺丝技术能制备直径小于1纳米的聚合物纳米纤维，是目前世界上所报道直径最小的聚合物纳米纤维，结果发表在国际著名的纳米技术杂志《Nanotechnology》（06年2月）上；该中心的研究工作也证实电纺丝技术同样可以制备高强度的聚合物纳米纤维，取得了取向聚亚胺纳米纤维膜的强度达到660 MPa、共聚聚酰亚胺纳米纤维膜的强度达到1.1GPa的成绩，结果分别发表在国际著名的材料科学杂志《Advanced Materials》（06年3月）和《Nanotechnology》 (07年12月) 上,。

是世界上所报道电纺纳米纤维的最高强度。最近，该中心与美国奈布拉斯加林肯大学力学系合作，发现了电纺聚合物纳米纤维机械性能的尺寸效应，直径是影响纳米纤维强度的重要因素，测得直径为50nm的电纺聚酰亚胺纳米纤维的强度可达到6

GPa，这个令人振奋的结果将很快发表在一流的国际学术期刊上。同时，该中心所研究的碳化纳米纤维在电极材料的应用方面也取得了长足的进展，由这种碳化的纳米纤维布作超级电容器（双电层型）电极时，电容达到了350F/g，是一般超级电容器（双电层型）电容量的两倍以上，该研究成果正在申请专利，随后将会发表在具有高度影响力国际学术期刊上。

Bin Huang, Jason J. Ge, Yonghong Li, Haoqing Hou*: Aliphatic Acid Esters of (2-Hydrovypropyl) 纤维素Effect of Side Chain Length on Properties of Cholesteric Liquid Crystals, Polymer (2007), 48(1): 264-269. [IF: 2.8]

Shuiliang Chen, Ping Hu, Andreas Greiner, Chuyun Cheng, Haofang Cheng, Fangfang Chen, and Haoqing Hou*: Electrospun Nanofiber Belts Made from High Performance Copolyimide Nanotechnology 18(24) (在印) (2007) [IF: 3.0].

Jianshe Huang, Dawei Wang, Haoqing Hou*, and Tianyan You: Electrospun Palladium Nanoparticle-loaded Carbon Nanofibers and Their Electrocatalytic Activities towards Hydrogen Peroxide and NADH Advanced Functional Materials, (2007) [IF: 6.8]. (在印).

Fei Chen, Xinwen Peng, Tingting Li, Shuiliang Chen, Xiaofa Wu, Darrell H Reneker and Haoqing Hou*: Mechanical characterization of single high-strength electrospun 聚酰亚胺 nanofibres Journal of Physics D, (2007) [IF: 2.1] (在印).

Li XY, Yu FL, Sun HJ, Huang LY, Hou HQ: Reactions of trimethylphosphane-supported cobalt complexes with salicylaldimines - Formation and structures of cobalt compounds containing salicylaldiminato [N : O] ligands, EUROPEAN JOURNAL OF INORGANIC 化学, 21: 4362-4367(2006) [IF: 2.7]

Li XY, Yu FL, Sun HJ, 休斯顿火箭 HQ: Novel stable five-coordinate diorgano cobalt(III) complexes: Formation, structure, and reaction with carbon monoxide, INORGANICA CHIMICA ACTA, 359 (10): 3117-3122 (2006) ) [IF: 1.7].

Chaobo Huang, Shuiliang Chen, Chuilin Lai,Darrell H Reneker, Haiyan Qiu, Ying Ye, and Haoqing Hou*: The Electrospun polymer nanofibres with small diameters Nanotechnology 17(6), 1558–1563 (2006) [IF: 3.0]

Chaobo Huang, Shuiliang Chen, Darrell H. Reneker, Chuilin Lai,and, Haoqing Hou*: High-Strength Mats from Electrospun Poly(p-Phenylene Biphenyltetracarboximide) Nanofibers, Advanced Materials.18(5),668-671 (2006) [IF: 7.8].

Chaobo Huang, Suqing Wang, Hean, Zhang, Tingting Li, Shuiliang Chen, Chuilin Lai, Haoqing Hou*: High Strength Electrospun Polymer Nanofibers Made from BPDA-PDA 聚酰亚胺, European Polymer Journel, 42(5), 1099-1104 (2006) [IF: 2.3].

Zeng J, Hou HQ, Wendorff JH, Greiner A, Photo-induced solid-state crosslinking of electrospun poly(vinyl 乙醇) fibers, Macromol. Rapid Commun. 26 (19): 1557-1562 (2005) [IF: 3.1].

Jason J. Ge; Qing Li; Dong Zhang; Haoqing Hou; Liming Dai; and Stephen Z. D. Cheng*: Multiwalled Carbon Nanotubes with Chemically Grafted Polyetherimides, J. Am. Chem. Soc. 127, 9984-9986 (2005) [IF: 7.7]

Jason J. Ge; Haoqing Hou; Qing Li; Andreas Greiner; Darrell H. Reneker;* and Stephen Z. D. Cheng* Directed Assembly of Well-Aligned Carbon Nanotubes in Confined Environments: Electrospun Oxidized MWNT/Polyacrylonitrile Composite Nanofibers J. Am. Chem. Soc. 126, 15754-15761 (2004) [IF:7.7]

Haoqing Hou*; Jun Zeng; Jason J. Ge; Darrell H. Reneker*; and Andreas Greiner; Stephen Z. D. Cheng: Polyacrylonitrile Nanofibers Containing High Content of Well-Aligned Multiwall Carbon Nanotubes by Electrospinning, Chem. Mater. 17(5): 967－973 (2005) [IF: 5.1]

Haoqing Hou and Darrell H. Reneker*: Carbon Nanotube on Carbon Nanofiber: A Novel Structure Based on Electrospun Polymer Nanofibers, Advanced Materials. 16(1), 69-73 (2004) [IF: 7.8].

Haoqing. Hou* A. Schaper, F. Weller and A. Greiner, Carbon Nanotubes and Spheres Produced by Modified 二茂铁 Pyrolysis, Chem. Mater. 14(9): 3990-3994 (2002) [IF: 5.1].

Greiner*, Poly (p-xylene) nanotubes by coating and removal of ultrathin polymer template fibers, Macromolecules 35:

2429-2431 (2002) [IF: 4.2].

M. Bognitzki, Haoqing Hou, M. Ishaque, T. Frese, M. Hellwig, C. schwarte, A. Schaper, J. H. Wendorff, and A. Greiner*, Polymer, Metal, and Hybrid Nano- and Mesotubes by Coating Degradable Polymer Template Fibers (TUFT Process), Advanced Materials, 12(9): 637-640 (2000) [IF: 7.8].

Haoqing Hou*, Zeng Jun, Frank Weller, and Andreas Greiner, Large Scale Synthesis and Characterization of Helically Coiled Carbon Nanotubes by use of Fe(CO)5 as Floating Catalyst Precursor, Chem. Mater, 15, 3170-3175 (2003) [IF: 5.1].

Haoqing. Hou, A. Schaper, Zeng Jun, F. Weller and A. Greiner, Large-scale Synthesis of aligned Carbon Nanotubes using 三氯化铁 as Floating Catalyst Precursor, Chem. Mater. 15(2): 580-585 (2003) [IF: 5.1].

A. Schaper, H. Hou, A. Greiner and F. Phillipp: About the Role of Iron Carbide in Multi-Walled Carbon Nanotube Growth, J. Catalysis, 222(1), 250-254 (2004) [IF: 4.5].

Zeng J, Hou HQ, Wendorff JH, Greiner A, Electrospun poly(vinyl 乙醇)/poly(acrylic acid) fibres with excellent 液态水stability, E-Polymers Art. No. 078 DEC 9 (2004) [IF: 1.0].

Zeng J, Hou HQ, Wendorff JH, Greiner A, Poly(vinyl alcohol) Nanofibers by electrospinning: Influence of Molecuar Weight on Fibre Shape, E-Polymers Art. No. 038 Jun 4 (2005) [IF: 1.0].

W. Ruland*, A. Schaper, H. Hou, and A. Greiner, Multiwall carbon nanotubes with uniform chirality, Carbon 41: 423-427 (2003) [IF: 3.9]

Haoqing Hou*, Stefan Reuning, Joachim H. Wendorff, Andreas Greiner, Effect of Blending of Cholesteric 纤维素 Ester on the Pitch Height, Macromol. Biosci.1: 45-48 (2001) [IF: 2.5]

A. Schaper*; Haoqing Hou; A. Greiner; R. Schneider; F. Phillipp, Copper nanoparticles encapsulated in multi-shell carbon cages, Applied Physics A. 78 (1), 73-77 (2004) [IF: 1.7].

阿联酋迪拉姆 Reneker and Haoqing Hou, ELECTROSPINNING, in ENCYCLOPEDIA OF BIOMATERIALS AND BIOMEDICAL ENGINEERING (Gary E. Wnek and Gary L. Bowlin Eds.), Marcel Dekker, Inc., New York, 2004, Edition 1. pp.543-550.

A. Greiner; H. Hou; A. Reuning; A. Thomas; J. H. Wendorff*; S. Zimmermann, Synthesis and Opto-Electronic Properties of Cholesteric 纤维素 Esters, Cellulose 10 (1), 37-52 (2003) [IF: 1.5].

Zeng Jun, Haoqing Hou, A. Schaper, J. H. Wendorff, and A. Greiner*, Poly-L-交酯 Nanofibers by Electrospinning - Influence of the Solution Viscosity and the Electrical Conductivity on the Fiber Diameter and Fiber Morphology, e-Polymers, art. No. 009 Mar. 8 (2003) [IF: 1.3].

Haoqing Hou, Arndt Reuning, Joachim H. Wendorff, Andreas Greiner*, Tuning of the pitch hight of thermotropic 纤维素 esters, Macromol. Chem. Phys., 201 (15): 2050-2054 (2000) [IF:2.0].

Elif Arici, Andreas Greiner, Haoqing Hou, Arndt Reuning, Joachim H. Wendorff*, Optical properties of guest host systems based on 纤维素 derivatives, Macromol. Chem. Phys., 201 (15): 2083-2090 (2000) [IF: 2.0].

Haoqing Hou, Zhenghua Yang, and Mengxian Ding*, Main-Chain Photosensitive Polyamic Acids Using Alkaline Aqueous Solution as Developer, Polym. Inter., 48: 421-425 (1999) [IF: 1.5].

Haoqing Hou, Junguang, and Mengxian Ding*, Ester-type Precursor of 聚酰亚胺 and Photosensitivity, European Polymer Journel, 35(11), 1993-2000 (1999) [IF: 2.1].

A. Schaper, H. Hou, A. Greiner and F. Phillipp: Multi-walled carbon nanotubes without and with metal filling, J. Metastable Nanocrystalline Mater. 23, 301-304 (2005).

A. Schaper, F. Phillipp, H. Hou, and A. Greiner: Melting behavior of copper nanocrystals encapsulated in onion-like carbon cages J. Mater. Research. 20 (7) 1844-1850 (2005) [IF: 2.3].

1. Haoqing Hou; Darrell H. Reneker: Carbon Nanotubes on Nanofibers Structure. PCT Int. (2005): WO 2005/044723 A3.

2. Haoqing Hou; Zeng Jun; A. Greiner; J. H. Wendorff; J. Averdung; and D. Landwehr, Tubes with inside diameters on the nanometric scale. Eur Pat. (2003): EP 1275757 A2; Ger. Offen. (2001): DE 10133393 A1; US Patent (2003): US2003/0026985 A1.

3. A. Greiner; J. H. Wendorff; Haoqing Hou and et al., Production of Moldings with Interior-Coated Voids, Ger. Offen.

(2002): DE 1016232A1; US Patent (2003): US2003/0098518 A1.

4. Haoqing Hou, Johnannes Averdung, Wolfgang Czado, Andreas Greiner, Joachim H. Wendorff, Oriented mesotubular and nanotubular oriented nonwoven fabrics and their manufacture, PCT Int. (2002): WO 0234986 A2; Ger. Offen. (2000): DE

10053263 A1.

5. 侯豪情, 李悦生，丁孟贤：型光敏聚酰亚胺的制备。中国专利奖(1997): CN1206724；

6. 侯豪情，丁孟贤：高分子量光敏聚酰亚胺酯型预聚体的低温制备。中国专利(1998): CN1247199；

7. 侯豪情、陈水亮、程楚云、胡萍：高速气吹静电纺丝复合方法制备超细聚合物纤维。中国专利(2007): （待批）；

8. 侯豪情、陈水亮、胡萍、程楚云：高强度聚合物纳米纤维的制备方法。中国专利(2007): （待批）；

9. 侯豪情、陈飞、陈娟、程楚云：含环结构的高强度聚酰亚胺纳米纤维的制备方法。中国专利奖(2007): （在申请）。

10. 侯豪情、陈飞、陈娟、程楚云：一种含双嘧啶结构的芳香族二胺及其制法和用途。中国专利(2007): （在申请）。