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胡敬平

1980

博士

教授

废水高级氧化处理技术、环境电化学传感、环境功能材料

87793948

hujp AT hust.edu.cn

http://funmat.www.lhslbm.com

个人简介

   

1.中文简介

2008 年博士毕业于英国牛津大学化学系物理化学专业,博士毕业后先后在英国诺丁汉大学和牛津大学从事博士后研究工作,2011年当选牛津大学拉姆齐研究员(Ramsay Fellow)。先后荣获复旦大学徐增寿奖学金、牛津大学牛顿-亚伯拉罕(Newton Abraham)全额奖学金、英国拉姆齐基金会Ramsay Fellowship研究员。 近年来先后主持和参与由英国The Ramsay Memorial Fellowships Trust、中国科技部、国家自然科学基金委员会、湖北省科技厅资助的多项科研项目,在Adv. Mat.Angew. Chem.Anal. Chem.等期刊发表论文60余篇,其中第一作者及通讯作者20余篇、申请中国和国际专利多项。2013年入选中组部第十批千人计划(青年项目),任华中科技大学环境 科学与工程学院教授、博士生导师。

担任旅英中国学人化学科学与技术学会(CSCST-UK) 副主席;牛津科技论坛(Oxford Forum of Science and Technology, OXFOST)的发起人之一,组织化学学科方向的论坛工作(Chair)。担任“Energy & Environmental Materials”期刊副主编,担任“Advances in Chemistry”期刊编委,担任“Journal of Water and Environmental Nanotechnology”期刊编委;担任多个学术期刊审稿人,包括Physical Chemistry Chemical PhysicsPhysica Status Solidi (c)Analytica Chimica ActaElectrochimica ActaInternational Journal of Nano Manufacturing (IJNM)Materials for Renewable and Sustainable Energy (MRSE)Waste and Biomass ValorizationWaste ManagementJournal of Materials Chemistry AInternational Journal of Energy ResearchApplied Surface ScienceJournal of Energy StorageBiotechnology for BiofuelsChemical CommunicationsChemical Engineering Journal,环境工程学报等,是国际水协会 (IWA)会员、英国皇家化学学会(RSC)会员和美国材料研究学会 (MRS)会员。

 

2.主要教育和工作经历

1998.092002.07 复旦大学 材料科学系 本科学习 学士学位
2002.10
2004.07 (德国)基尔大学 工程学院 材料科学与工程系 硕士学位
2004.10
2008.05 (英国)牛津大学 化学系 博士学位
2008.01
2008.09 (英国)诺丁汉大学 化学系 博士后助理研究员
2008.09
2011.09 (英国)牛津大学 化学系 博士后助理研究员
2011.09
2013.12 (英国)牛津大学 化学系 拉姆齐研究员(Sir William Ramsay Research Fellow
2014.01
-至今   华中科技大学 bc365 教授、博导
3. 主要研究方向

(1) 废水处理高级氧化技术

(2) 电化学传感环境监测技术

(3) 环境功能材料

4. 论文发表

详见:http://funmat.www.lhslbm.com/Publications.htm

69. Activated microporous-mesoporous carbon derived from chestnut shell as a sustainable anode material for high performance microbial fuel cell, Qin Chen#,Wenhong Pu#,Huijie Hou, Jingping Hu, Bingchuan Liu, Jianfeng Li,Kai Cheng,Long Huang, Xiqing Yuan, Changzhu Yang, Jiakuan Yang* ,Bioresource Technology,2018,249,567-573 (full text online)

68. Cross-linked chitosan/p-cyclodextrin composite for selective removel of methyl orange:Adsorption performance and mechanism, Yezhou Jiang#,Bingchuan Liu#,Jikun Xu, Keliang Pan,Huijie Hou, Jingping Hu*, Carboohydrate Polymers, 2018, 182, 106-114 (full text online)

67. Study on dewaterability limit and energy consumption in sewage sludge electro-dewatering by in-situ linear sweep voltammetry analysis, Wenbo Yu, Jiakuan Yang,* Xu Wu, Yueyuan Gu, Jun Xiao, Jiangwei Yu, YafeiShi, Junxiong Wang, Sha Liang, Bingchuan Liu, Huijie Hou, Jingping Hu, Chemical Engineering Journal, 2017, 317, 980-987 (full text online)

66. Synergistic effect of water content and composite conditioner of Fenton's reagent combined with red mud on the enhanced hydrogen production from sludge pyrolysis, Jiakuan Yang, Jian Song, Sha Liang*, Ruonan Guan, YafeiShi, Wenbo Ya, Suiyi Zhu, Wei Fan, Huijie Hou, Jingping Hu, Huali Deng, Bo Xiao, Water Research, 2017, 123, 378-387 (full text online)

65. Facile preparation of flower-like NiMn layered double hydroxide/reduced graphene oxide microsphere composite for high-performance asymmetric supercapacitors, Long Huang#, Bingchuan Liu#, Huijie Hou, Longsheng Wu, Xiaolei Zhu, Jingping Hu*, Jiakuan Yang*, Journal of Alloys and Compounds 730 (2018) 71-80 (full text online)

64. Enhanced visible-light driven photocatalytic activity of hybrid ZnO/g-C3N4 by high performance ball milling, Qin Chen#, Huijie Hou#, Danwei Zhang, Shaogang Hu, Tao Min, Bingchuan Liu, Changzhu Yang, Wenhong Pu, Jingping Hu*, Jiakuan Yang*, Journal of Photochemistry and Photobiology A: Chemistry, 2018, 350, 1-9 (full text online)

63. Alkaline intercalation of Ti3C2 MXene for simultaneous electrochemical detection of Cd(II), Pb(II), Cu(II) and Hg(II), Xiaolei Zhu#, Bingchuan Liu#, Huijie Hou, Zhenying Huang, Kemal Mohammed Zeinu, Long Huang, Xiqing Yuan, Dabin Guo, Jingping Hu*, Jiakuan Yang*, Electrochimica Acta, 2017, 248, 46–57 (full text online)

62. Ultrahigh-performance pseudocapacitor based on phase-controlled synthesis of MoS2 nanosheets decorated Ni3S2 hybrid structure through annealing treatment, Long Huang#, Huijie Hou#, Bingchuan Liu, Kemal Zeinu, Xiaolei Zhu, Xiqing Yuan, Xiulin He, Longsheng Wu, Jingping Hu*, Jiakuan Yang*, Applied Surface Science, 2017, 425, 879–888 (full text online)

61. Ionic liquid mediated technology for fabrication of cellulose film using gutta percha as an additive, Jikun Xu, Bingchuan Liu, Jingping Hu*, Huijie Hou*, Industrial Crops & Products, 2017, 108, 140–148 (full text online)

60. Facile synthesis of mesoporous graphene platelet with in-situ nitrogen and sulfur doping for lithium-sulfur batteries, Xiqing Yuan, Bingchuan Liu, Huijie Hou, Kemal Zeinu, Yuhang He, Xiaorong Yang, Weijun Xue, Xiulin He, Long Huang, Xiaolei Zhu, Longsheng Wu, Jingping Hu*, Jiakuan Yang*, Jia Xie, RSC Advances, 2017, 7, 22567-22577 (full text online)

59. Pretreatment of eucalyptus with recycled ionic liquids for low-cost biorefinery, Jikun Xu, Bingchuan Liu, Huijie Hou, Jingping Hu*, Bioresource Technology, 2017, 234, p406-414 (full text online)

58. Separator modified with N,S co-doped mesoporous carbon using egg shell as template for high performance lithium-sulfur batteries, Xiqing Yuan, Longsheng Wu, Xiulin He, Kemal Zeinu, Long Huang, Xiaolei Zhu, Huijie Hou, Bingchuan Liu, Jingping Hu*, Jiakuan Yang*, Chemical Engineering Journal, 2017, 320, p178-188 (full text online)

57. The integration of different pretreatments and ionic liquid processing of eucalyptus: Hemicellulosic products and regenerated cellulose fibers, Jikun Xu, Huijie Hou, Bingchuan Liu, Jingping Hu*, Industrial Crops & Products, 2017, 101, 11-20 (full text online)

56. Lamellar mesoporous carbon derived from bagasse for the cathode materials of lithium sulfur batteries, Xiqing Yuan, Bingchuan Liu, Jingyi Xu, Xiaorong Yang, Kemal Zeinu, Xiulin He, Longsheng Wu, Jingping Hu*, Jiakuan Yang*, Jia Xie, RSC Advances, 2017, 7, 13595 (full text online)

55. Aerobic granular sludge inoculated microbial fuel cells for enhanced epoxy reactive diluent wastewater treatment, Kai Cheng#, Jingping Hu#, Huijie Hou, Bingchuan Liu, Qin Chen, Keliang Pan, Wenhong Pu, Jiakuan Yang, Xu Wu, Changzhu Yang*, Bioresource Technology, 2017, 229, 126–133 ( full text online)

54. Electrocatalytic activity of lithium polysulfides adsorbed into porous TiO2 coated MWCNTs hybrid structure for lithium-sulfur batteries, Xiulin He#, Huijie Hou#, Xiqing Yuan, Long Huang, Jingping Hu*, Bingchuan Liu, Jingyi Xu, Jia Xie, Jiakuan Yang*, Sha Liang, Xu Wu, Scientific Report, 2017, 7, 40679 (full text online)

53. Phase-controlled solvothermal synthesis and morphology evolution of nickel sulfide and its pseudocapacitance performance, L. Huang?, H. Hou?, B. Liu, K. Zeinu, X. Yuan, X. Zhu, X. He, L. Wu, J. Hu*, J. Yang*, Ceramics International, 2017, 43 (3), p3080–3088 [Full text online, PDF]

52. Ball-milled Si powder for the production of H2 from water for fuel cell applications, L. Xu, S. Ashraf, J. Hu, P. P. Edwards, M. O. Jones, E. Hadzifejzovic, J. S. Foord*, International Journal of Hydrogen Energy, 2016, 41 (30), p12730–12737 [Full text online, PDF]

51. A novel hollow sphere bismuth oxide doped mesoporous carbon nanocomposite material derived from sustainable biomass for picomolar
electrochemical detection of lead and cadmium, Kemal M. Zeinu,? H. Hou,? B. Liu, X. Yuan, L. Huang, X. Zhu, J. Hu,* J. Yang,* S. Liang, X. Wu, Journal of Materials Chemistry A, 2016, 4, 13967-13979  [
Full text online, PDF]

50. Ferrite as an effective catalyst for HCB removal in soil: Characterization and catalytic performance, J. Chen*, D.L. Zhong, H.J. Hou, C.P. Li, J.K. Yang, H.Y. Zhou, L. Hu, L.L. Wang*, Chemical Engineering Journal, 2016, 294, 246-253 [Full text online, PDF]

49. Effect of pH on desulphurization of spent lead paste via hydrometallurgical process, W. Zhang, J.K. Yang*, Y.C. Hu, X.Xiong, X.F. Zhu, R.V. Kumar, W.H. Yu, J.X. Wang, M.Y. Li, S. Liang, J.P. Hu, X.Wu, Hydrometallurgy, 2016, 164, p83-89 [Full text online, PDF]

48. A critical review on secondary lead recycling technology and its prospect, W. Zhang, J.K. Yang*, X. Wu, Y.C. Hu, W.H. Yu, J.X. Wang, J.X. Dong, M.Y.  Li, S. Liang, J.P. Hu, R.V. Kumar, Renewable & Sustanable Energy Reviews, 2016. 61,p108-122  [Full text online, PDF]

47. Patent 国家实用新型专利:一种新型电化学测试装置, 发明/设计人:胡敬平、楚鑫鹏、朱小磊、可马尔.策努 、袁喜庆、黄龙、贺秀林、江叶舟、侯慧杰、刘冰川、杨家宽, 专利号:ZL201620480027.X, 专利申请日:2016524日,授权公告日:2016923

46. Patent 国家实用新型专利:一种通风橱, 发明/设计人:胡敬平、闵涛、袁喜庆、聂鹏茹、章单伟、侯慧杰、刘冰川、杨家宽、梁莎、吴旭
,
专利号 ZL201620201201.2, 专利申请日:2016316日,授权公告日:2016817

45.  Synthesis and strength optimization of one-part geopolymer based on red mud, N. Ye, J. Yang*, S. Liang, Y. Hu, J. Hu, B. Xiao, Q. Huang, Construction and Building Materials, 2016 (111), 317-325 [Full text online, PDF]

44.  Roles of iron species and pH optimization on sewage sludge conditioning with Fenton’s reagent and lime, W. Yu, J. Yang*, Y. Shi, J. Song, Y. Shi, J. Xiao, C. Li, X. Xu, S. He, S. Liang, X. Wu, J. Hu, Water Research, 2016 (95), 124-133[Full text online, PDF]

43. The effect of barium sulfate doped lead oxide as positive active materials on the performance of lead acid battery, X. Yuan#, J. Hu#, J. Xu, Y. Hu, W. Zhang, J. Dong, S. Liang, H. Hou, X. Wu, J. Yang*, RSC Advances, 2016, 6, 27205-27212 [Full text online, PDF]

42. Distribution and speciation of heavy metals in two different sludge composite conditioning and deep dewatering processes, C. Li, S. Zhang, J. Yang*, Y. Shi, W. Yu, S. Liang, J. Song, Q. Xu, Y. Chen, J. Hu, Y. Li and C. Yang, RSC Adv., 2015,5, 102332-102339 [Full text online, PDF]

41. Electroanalysis of Hydrogen Peroxide at Boron Doped Diamond Electrode Modified by Silver Nanoparticles and Haemoglobin, L.Y. Jiang, J.P. Hu, J.S. Foord*,  Electrochimica Acta, 2015, 176, 488-496 [Full text online, PDF]

40.  A novel leady oxide combined with porous carbon skeleton synthesized from lead citrate precursor recovered from spent lead-acid battery paste, Y. Hu, J.K. Yang*, W. Zhang, Y.L. Xie, J.X. Wang, X.Q. Yuan, R. V. Kumar, S. Liang, J.P. Hu, X. Wu, Journal of Power Sources, 2016, 304, 128-135 [Full text online, PDF]

39. Distribution and speciation of heavy metals in two different sludge composite conditioning and deep dewatering processes,X. Li, S.N. Zhang, Y.K. Yang*, Y.F. Shi, W.B. Yu, S. Liang, J. Song, Q. Xu, Y. Chen, J.P. Hu, Y. Li, C.Z. Yang, RSC Advances, 2015, 5, 102332-102339 [Full text online , PDF]

38. Synergetic conditioning of sewage sludge via Fe2+/persulfate and skeleton builder: Effect on sludge characteristics and dewaterability, Shi, Y. F., J. K. Yang*, W. B. Yu, S. N. Zhang, S. Liang, J. Song, Q. Xu, N. Ye, S. He, C. Z. Yang and J. P. Hu, Chemical Engineering Journal, 2015, 270, 572-581. [Full text online , PDF]

37. Stannous sulfate as an electrolyte additive for lead acid battery made from a novel ultrafine leady oxide, Wang, Q., J. W. Liu, D. N. Yang, X. Q. Yuan, L. Li, X. F. Zhu, W. Zhang, Y. C. Hu, X. J. Sun, S. Liang, J. P. Hu, R. V. Kumar and J. K. Yang*, Journal of Power Sources, 2015, 285, 485-492. [Full text online , PDF]

36. Structural study of a lead (II) organic complex – a key precursor in a green recovery route for spent lead-acid battery paste, Zhang, W., J. Yang*, X. Zhu, X. Sun, W. Yu, Y. Hu, X. Yuan, J. Dong, J. Hu, S. Liang and R. V. Kumar, Journal of Chemical Technology & Biotechnology 2015. (DOI: 10.1002/jctb.4620) [Full text online , PDF]  

35. Synthesis and Electrocatalytic Performance of BDD-Supported Platinum Nanoparticles, X. Lyu, J. Hu*, J. S. Foord*, C. Lou, W. Zhang, J. Mater. Eng. Perform., 2015, 24, 2, 1031-10373.    [Full text online , PDF]

34. 国家发明专利:一种赤泥生产地聚物胶凝材料的方法及产品, 发明人/设计人:杨家宽,叶楠,梁莎,胡敬平,虞文波,宋健,金龙,张伟,胡雨辰;专利号:ZL201410160376.9,分类号: C04B7/14,公开/公告号: CN103964710A,公开/公告日:2014-08-06,授权日:2015-01-28  

33. 国家实用新型专利:一种随动下落式铺粉装置,发明/设计人:叶春生,赵火平,胡敬平,陈国清,樊自田,索进平,俞伟洋;专利号:ZL201420795588.X,分类号:C23C24/10,公开/公告号:CN204311134U,公开/公告日:2015-05-06,授权日:2015-05-06

32. Glutamate Biosensors Based on Diamond and Graphene Platforms, J. Hu, S. Wisetsuwannaphum, J. S. Foord*, Faraday Discuss., 2014, 172, 457-472 [Full text online , PDF]

31. A novel electroless method to prepare a platinum electrocatalyst on diamond for fuel cell applications , X. Lyu, J. Hu*, J. S. Foord*, Q. Wang, J. Power Sources, 2013, 242, p631-637 [Full text online , PDF]

30. Shape selective plate-form Ga2O3 with strong metal-support interaction to overlying Pd for hydrogenation of CO2 to CH3OH , X. Zhou, J. Qu, F. Xu, J. Hu, J. S. Foord, Z. Zeng, X. Hong, S. C. E. Tsang*, Chem. Commun., 2013,49, p1747-1749 [Full text online, PDF]

29. Plasma electrochemistry: Development of a reference electrode material for high temperature plasmas, T. Fowowe, E. Hadzifejzovic, J. Hu, J. S. Foord, D. J Caruana*, Advanced Materials, 2012, 24 (47), p 6305–6309 [Full text online, PDF]

28.  Electrodeposition of a Pt-PrO2-x electrocatalyst on diamond electrodes for the oxidation of methanol, L. Chen, J. Hu, J. S. Foord*, Phys. Status Solidi A, 2012, 209 (9), p1792–1796 [Full text online, PDF]

27.  PCT Patent: UK Invention Application: Composition for hydrogen generation, Patent Appl No. 1217525.3, J.S. Foord, J. Hu, filed on 1 October 2012; International PCT (Patent Cooperation Treaty) Patent application No. PCT/GB13/000415, Patent No. WO2014053799-A1, filed on 1 October 2013, Publication date 10 Apr 2014. Patent No. EP2904054-A1, Publication date 12 Aug 2015. (国际专利)

26. Electrochemical detection of DNA hybridization by a zirconia modified diamond electrode, B. Liu, J. Hu*, J.S. Foord*. , Electrochem. Commun., 2012, 19, p46–49 [Full text online, PDF]

25. Shape-Dependent Acidity and Photocatalytic Activity of Nb2O5 Nanocrystals with an Active TT (001) Surface. Y. Zhao, C. Eley, J. Hu, J.S. Foord, L. Ye, H. He, and S.C.E. Tsang. (2012), Angewandte Chemie – Intl Ed, 2012, 124(16), p3912–3915, doi: 10.1002/anie.201108580 (Hot paper) [Full text online, PDF]

24. Patent (PRC Invention):  Electroless coating method of platinum on conductive carbon base, Patent No. ZL201010599829.X, Publication No. CN 102071413 A, Application No. 201010599829.X , Appl Date:2010-12-22, Granted Date: 2012-02-15 . (国家发明专利: 一种在导电碳基表面化学镀铂的方法, 吕逍,王强,赫冀成,约翰伏特,胡敬平,专利号 ZL201010599829.X,授权日:2012-02-15 )

23. Fabrication of Hybrid Diamond and Transparent Conducting Metal Oxide Electrode for Spectroelectrochemistry, J. Hu, J. Hodge, A. Boff, J.S. Foord, International Journal of Electrochem-istry, Vol 2011, 2011, Article ID 286458 [Full text online, PDF]

22. Electrochemical deposition of Pt-Ru on diamond electrode for electro-oxidation of methanol, X. Lu, J. Hu*, J.S. Foord*, Q. Wang, Journal of Electroanalytical Chemistry, 654 (2011) p38-43 [Full text online, PDF]

21. Electrochemical Deposition of Thin Film Zirconia on Diamond, B. Liu, J. Hu, J. S. Foord, Electro-chemical and Solid-State Letters, 2011,14 (2), p D20-D22  [Full text online,PDF]

20. Nanodiamond pretreatment for the modification of diamond electrodes by platinum nanoparticles. J. Hu, X. Lu, J.S. Foord, Electrochem. Commun., 2010, 12 (5), p676–679.  [Full text online, PDF]

19. Evaluation of intergranular corrosion susceptibility of UNS S31803 duplex stainless steel with an optimized DL-EPR method, J. Gong, Y.M. Jiang, B. Deng, J.L. Xu, J.P. Hu, Jin Li, Electrochimica Acta, 2010, 55 (18), p 5077-5083 [Full text online]

18. Electrochemical deposition of Pt nanoparticles on diamond substrates, J. Hu, X. Lu, J.S. Foord, Q. Wang, physica status solidi (a), 2009, 206, 9, p2057-2062 [Full text online, PDF]

17. Focused Ion Beam Fabrication of Boron-Doped Diamond Ultramicroelectrodes , Jingping Hu, Katherine B. Holt and John S. Foord, Anal. Chem., 2009, 81 (14), pp 5663–5670. [full text, pdf]

16. An X-ray spectroscopic study of the electronic structure of CuCrO2, T. Arnold, D.J. Payne, A. Bourlange, J. Hu, R.G. Egdell, Physical Review B. 79, 075102 (2009). [full text, pdf]

15. Heterogeneous Electron Transfer Kinetics at the Ionic Liquid/Metal Interface studied using Cyclic Voltammetry and Scanning Electrochemical Microscopy, A.W. Taylor, F. Qiu, J. Hu, P. Licence, D.A. Walsh, Journal of Physical Chemistry B, 2008, 112 (42), 13292-13299. [full text, pdf]

14. Scanning Electrochemical Microscopy (SECM) Studies of Redox Processes at Undoped Nanodiamond Surfaces, K. B. Holt, C. Ziegler, J. Zang, J. Hu, J. S. Foord, Journal of Physical Chemistry 2009, 113 (7), pp 2761–2770. [full text, pdf]

13. On-site interband excitations in resonant inelastic X-ray scattering from Cu2O, J. Hu, D. J. Payne, R. G. Egdell, P.-A. Glans, T. Learmonth, K.E. Smith, J. Guo, N.M. Harrison, Phys. Rev. B, 77, 155115 (2008). [full text, pdf]

12. The electronic structure of SrCu2O2 studied by vacuum ultraviolet photoemission and density functional calculations, J. Hu, D.J. Payne, R.G. Egdell, V.R. Dhanak, G. Miller, Chemical Physics Letters, 450, 39-43 (2007). [full text, pdf]

11.. Redox Properties of Undoped 5 nm Diamond Nanoparticles , K. B Holt, C. Ziegler, D. J. Caruana, J. Zang, E. J. M. Barrios, J. Hu, J. S. Foord, Phys. Chem. Chem. Phys., 10, 303-310 (2008). [full text, pdf]

10. Hot Filament Chemical Vapour Deposition of Diamond Ultramicroelectrodes , J. Hu, J. S. Foord, K.B. Holt, Phys. Chem. Chem. Phys. 9 (39), p.5469-5475, 2007 (published as a HOTArticle). [full text, pdf]

9. Diamond Ultramicroelectrodes , J. S. Foord, J. Hu, and K. B. Holt, phys. stat. sol (a), 204, No. 9, 2940¨C2944 (2007). [full text,pdf]

8. Photon energy dependence of final state screening in a dilute electron gas system: a synchrotron radiation photoemission study of beta-PbO2, D.J. Payne, J. Hu, R.G. Egdell, V.R. Dhanak, G. Miller, Chemical Physics Letters (2007), Volume 443, Issues 1-3, Pages 61-65. [full text, pdf]

7. Fabrication and Characterization of Diamond Ultramicroelectrodes of Diameter < 25 micron for Use in Electroanalysis, Sensing and Imaging Applications, K. B. Holt, D. J. Caruana, J. Raja, J. Hu, J. S. Foord, ECS Transactions, 3, (28) 37-47 (2007). [full text, pdf]

6. Fabrication of Boron-Doped Diamond Ultramicroelectrodes for Use in Scanning Electrochemical Microscopy Experiments , K. B. Holt, J. Hu, and J. S. Foord, Anal. Chem. (2007), 79 (6), 2556-2561. [full text, pdf]

5. Electrochemical oxidation and reduction processes at diamond electrodes of varying phase purity , J.S. Foord, J. Hu, phys. stat. sol. (a) 203, No. 12, p. 3121-3127 (2006). [full text, pdf]

4. Energy-dispersive X-ray reflectivity and GID for Real-time Growth Studies of Pentacene Thin Films, S. Kowarik, A. Gerlach, W. Leitenberger, J. Hu, G. Witte, C. Woell, U. Pietsch, and F. Schreiber, Thin Solid Films 515 (2007) 5606. [full text, pdf]

3. Radiotracer measurements as a sensitive tool for the detection of metal penetration in molecular based organic electronics, M. Scharnberg, J. Hu, J. Kanzow, K. R?zke, R. Adelung, F. Faupel, C. Pannemann, U. Hilleringmann, S. Meyer, and J. Pflaum, Appl. Phys. Lett. 86(2), 024104 (2005). [full text, pdf]

2. Ag-Diffusion in the Organic Semiconductor Diindenoperylene, M. Scharnberg, J. Hu, J. Kanzow, K. R?zke, R. Adelung, F. Faupel and J. Pflaum, , Defect and Diffusion Forum (2005), 237-240(Part. 2, Diffusion in Materials), 993-997. [full text, pdf]

1. Study on Impedance Transition of PEN Thin Film, Guo Feng, Jiang Yi-Ming, Xie Heng-Bo, Wan Xing-Gong, Hu Jing-Ping, Li Jin, Wuli Xuebao (2005), 54(3), 1396-1399. [full text, pdf] (PEN薄膜阻抗转变规律研究,物理学报 (2005),郭峰,蒋益明,谢亨博,万星拱,胡敬平,李劲*)

5. 承担和参与的科研项目 Research Projects Undertaken and Fundings

1、科技部973计划青年科学家专题,高比能锂硫二次电池界面问题的基础研究2015CB258400),参与。

2、国家自然科学基金-青年基金(51508213),三维碳材料复合电极电催化降解有机工业废水的原位光谱电化学研究,主持。

3、中组部第十批千人计划(青年项目),主持。

4、湖北省自然科学基金重点项目,铅回收中三维纳米微孔碳的制备及其超级电容效应研究2014CFA109),主持。

5 英国拉姆齐基金会(Ramsay Memorial Fellowships Trust)拉姆齐研究员研究基金,“The study of protein transitions with combined ATR-IR spectroscopy and electrochemical methods using graphene-modified electrodes”,主持。

 

6. 招生和招聘

 

欢迎来自于环境、材料、化学与化工、能源等相关学科,有志于从事环境化学及固废资源化事业的学生报考本课题组的硕士研究生、博士研究生;诚聘优秀全职博士后和讲师加入本课题组从事相关环境领域的研究!

 

 

 

华中科技大学青年千人胡敬平教授FunMat课题组招收推免生、直博生


华中科技大学是国家教育部直属的全国重点大学,是首批列入国家“211工程重点建设和国家“985工程建设高校之一。华中科技大学环境学院最近从英国牛津大学引进了青年千人胡敬平教授,其领导的废水处理固废资源化及储能功能材料(FunMat)课题组,创立伊始,发展迅速。课题组现招考相关学科背景的推免生、直博生,名额不限

课题组的研究方向:
1.
废水污染控制处理:电催化高级氧化技术、纳米零价铁、光催化氧化技术,包括废水深度处理高级氧化技术:电催化氧化、芬顿技术(电芬顿、光芬顿、过硫酸盐氧化等)、零价铁、臭氧等,以及原位红外光谱电化学在污染物降解机理分析等。2. 环境功能材料:固废高值化转化技术、固废处理处置的污染物迁移转化规律研究。 3. 环境传感:环境电化学传感、微生物电化学传感、微流控环境传感器等。

研究内容是环境、化学、材料、能源、微生物等多学科的高度交叉,因此欢迎理工科具有以上相关学科背景的推免生和直博生咨询和报名。今后随着研究所的发展,导师数量和招生名额会持续增加,本招考广告长期有效。课题组研究情况可以参阅主页: http://funmat.www.lhslbm.com

课题组PI胡敬平教授简介:
华中科技大学教授、博士生导师,入选中组部青年千人计划 2008年于牛津大学化学系获博士学位;2008年在诺丁汉大学从事博士后研究,2008年至2011年在牛津大学从事博士后研究,2011年至2013 年在牛津大学担任Ramsay Fellow20141月至今在华中科技大学任教授,研究方向为废水处理、固废资源化和储能功能材料。 近年来在薄膜材料生长、原位光谱电化学、电化学传感、纳米催化剂、半导体氧化物能级结构等方面取得了原创性成果。已发表SCI/EI论文30余篇;以第一 作者/通讯作者在Advanced MaterialsAngew ChemAnal Chem等国际权威期刊发表论文10余篇,获国家发明专利、国际发明专利多项。

报考理由:
研究内容以最新科技发展趋势为导向,紧跟国际研究热点,结合光谱电化学、微区 扫描电化学等表征手段和二维纳米材料的研究热点,进行环境和储能功能材料应用的多学科交叉研究;青年千人提供了充足的启动经费,实验室配备了研究所需 的最先进的科研设备;导师年轻,平易近人,与学生交流没有代沟,被评为2015年华中科技大学第二届研究生知心导师称号http://funmat.www.lhslbm.com/info/1009/1078.htm)。课题组学术气氛浓厚;鼓励研究生参加国内外学术会议交流,优秀的研究生也可以考虑推荐到国外名校交流学习、联合培养。

学生待遇:
除了学校为学生提供的奖助金外(参见华中科技大学研究生奖学金管理办法),课题组还为将根据学生的表现提供额外的助研津贴。
本课题组最近几年将有硕士研究生招生的指标和直博指标,优先录取第一志愿报考本组的学生和推免生、直博生,尤其是有直博意愿的学生,欢迎广大对环境、储能、光谱电化学等领域感兴趣的学子联系我们。
同时,本课题组也长期招聘博士后,详见:http://postdoctor.hust.edu.cn/article.asp?id=237

联系方式:
胡敬平教授,Email hujp -AT- hust.edu.cn (请在email附件中提供个人简历和成绩单)
网站:http://funmat.www.lhslbm.com

 

 

青年千人胡敬平教授课题组诚聘博士后研究人员

华中科技大学bc365胡敬平教授FunMat课题组,因工作和研究发展需要向国内外公开招聘博士后科研人员,本招聘广告长期有效。FunMat课题组具体情况可以参阅网站:http://funmat.www.lhslbm.com

一、 团队简介:

目前团队有一名教授、两名副教授、两名博士后,另有15余名博士、硕士研究生。

团队负责人胡敬平,华中科技大学教授、博士生导师,入选第十批中组部“千人计划(青年项目)”。 2008年于牛津大学化学系获博士学位;2008年在诺丁汉大学从事博士后研究,2008年至2011年在牛津大学从事博士后研究,2011年至2013 年在牛津大学担任Ramsay Fellow20141月至今在华中科技大学任教授,研究方向为环境电化学与功能材料,具体包括废水深度处理高级氧化技术、原位红外光谱电化学在污染物降解机理研究的应用、电化学传感在环境监测的应用等。具有非常扎实的理论研究基础、科技创新能力强,主持在研科研项目5项。已发表SCI/EI论文40余篇;其中第一作者/通讯作者10余篇,获国家发明专利、国际发明专利多项。

二、 研究领域:

1. 废水深度处理高级氧化技术

2. 原位红外光谱电化学

3. 电化学传感

4. 污泥处理、处置与资源化

5. 微生物电化学

三、 主持的项目

1)中组部第十批“青年千人计划”人才启动基金;

2)英国Ramsay Memorial Fellowships Trust基金项目;

3)科技部“973计划”青年科学家专题项目,“高比能锂硫二次电池界面问题的基础研究”(项目编号:2015CB258400,参与);

4)国家自然科学基金-青年基金,“三维碳材料复合电极电催化降解有机工业废水的原位光谱电化学研究“(项目编号:51508213);

5)湖北省自然科学基金重点项目 (项目编号:2014CFA109);

6)华中科技大学自主创新研究基金,前沿探索基金(项目编号:2014TS092)。

四、 应聘条件:


1)毕业于海外或国内知名高校的环境工程、环境科学和物理化学专业背景博士或将要获得博士学位,有环境和化学领域较强的专业基础和理论功底,有一定的独立开展该方向研究的经验;

2)热爱科学研究,具有一定的创新性构想和战略性思维,并有较强的动手能力;严谨务实,积极进取,具有良好的职业道德、良好的团队合作精神和责任心;

3)具有较强的英语写作及交流能力,在攻读博士学位期间(或近三年内)以独立撰写并以第一作者身份在相关学科领域杂志上发表多篇英文SCI论文。

五、 岗位待遇:


1)待遇:提供良好的研究条件,薪酬待遇和住房按华中科技大学有关博士后研究员的规定执行,每年不少于18.7万的薪水及相应的福利待遇(参照学校正式职工),具体事宜根据工作能力和经验面议。

2)聘期为3-6年,第一聘期合同为3年,期满后优秀者可竞聘本学院正式教职岗位,且博士后工作经历可视为教师岗位首聘期合格。

3)其他待遇:包括协助办理租住博士后公寓等,按照华中科技大学关于博士后管理的相关规定执行(网站:http://202.114.18.8:8085/sort.asp?id=158

六、 应聘需提供的材料:


1)请将个人简历(包括个人基本信息、学习工作经历、参与科研项目情况及科研成果)、三位推荐人、加入课题组后的研究计划等材料email发送至hujp AT hust.edu.cn
2)初选合格者将通知进行面试答辩,同时要求提供3份专家推荐信(其中1份须由博士生导师提供),学历、学位证书等证明材料,以及近年来主要研究成果和相关证明材料等相关证明。

七、 联系方式:

 

地址:华中科技大学 bc365 环境楼(东16楼), 邮政编码:430074
Emailhujp AT hust.edu.cn

电话:+86-27-87793948-801  

网址:http://funmat.www.lhslbm.com/

FunMat课题组热情欢迎您的加盟!

 

 

Name:

HU Jingping    

Title:

Professor,   D.Phil (Oxon)

Department:

Department   of Environmental Engineering

Research   Interest:

Advanced   oxidation process (AOP), Electrochemical sensing for environmental   monitoring, Resource recovery of solid waste as  environmental and   energy storage functional materials

Telephone:

+86   27 87793948 – Ext. 801

1. Brief Curriculum Vitae

Dr Jingping Hu is a professor of environmental engineering at the Huazhong University of Science and Technology, and is chairing FunMat Laboratory. His research largely focuses on advanced oxidation process (AOP) for wastewater treatment, electrochemical sensing for environmental monitoring, resource recovery of solid waste as environmental functional materials. He has been published more 60 papers in several leading international journals, including Adv. Mat., Angew Chem, Anal. Chem.

He was awarded the prestigious Newton Abraham studentship at Lincoln College and received his D.Phil from the University of Oxford (2004-2008). After graduation he was awarded as Sir William Ramsay Research Fellowship at the University of Oxford. In late 2013, Dr Hu was awarded the prestigious Chinese “Young Thousand Talents Programme“, and joined the Huazhong University of Science and Technology in Wuhan China in January 2014.

He also serves as the vice-president of the Chinese Society of Chemical Science and Technology in the UK (CSCST-UK), the co-founder to initiate Oxford Forum of Science and Technology (OXFOST). He serves as associate editor for “Energy & Environmental Materials”, member of editorial board for Journal “Advances in Chemistry” and “Journal of Water and Environmental Nanotechnology”. He also serves as a regular reviewer for: Physical Chemistry Chemical Physics, Physica Status Solidi (c), Analytica Chimica Acta, Electrochimica Acta, International Journal of Nano Manufacturing (IJNM), Materials for Renewable and Sustainable Energy (MRSE), Waste and Biomass Valorization, Waste Management, Journal of Materials Chemistry A, International Journal of Energy Research, Applied Surface Science, Journal of Energy Storage, Biotechnology for Biofuels, Chemical Communications, Chemical Engineering Journal, etc. He is also a member of International Water Association (IWA), member of Royal Society of Chemistry (RSC), and member of Materials Research Society (MRS).

2. Education and Professional Experience

Education

1998-2002        B.Sc. in Materials Science, Fudan University

2002-2004        M.S.E in Materials Science and Engineering, Christian Albrechts Universit?t zu Kiel

2004-2008        D.Phil. in Physical Chemistry, University of Oxford, attached to Lincoln College

Professional

2008                Postdoctoral research associate, University of Nottingham

2008-2011        Postdoctoral research assistant, University of Oxford

2011 – 2014     Sir William Ramsay Fellow in Department of Chemistry, University of Oxford

2013 – present   Professor in School of Environmental Science and Engineering, HUST
Supported by the prominent Thousand Young Talents Scheme in China

3. Honours and Awards

a. 2014, Young Thousand Talents Programme, Organization Department of CPC

b. 2011-2014, Sir William Ramsay Fellowship, University of Oxford and Ramsay Memorial Fellowships Trust

c. 2004-2008, Newton Abraham studentship, University of Oxford and Edward Penley Abraham Research Fund

4. Research Interests

a. Advanced oxidation process (AOP)

b. Electrochemical Sensing for Environmental Monitoring,

c. Environmental Functional Materials.

5. Publications

More recent publications can be found in FunMat Laboratory website: http://funmat.www.lhslbm.com/Publications.htm

 

6. Funding

a. National thousand young talents program, Organization Department of CPC

b. Natural Science Foundation of China (51508213)

c. National Basic Research Program of China (973 Youth Program, 2015CB258400), the Ministry of Science and Technology of China

d. Key Project of Hubei Provincial Natural Science Foundation (2014CFA109), the Science and Technology Department of Hubei Province

7. Recruiment

PhD studentship in Environmental Electrochemistry for international  students

Applications are invited for a research studentship in the field of Environmental Electrochemistry, leading to the award of a PhD degree. The post is supported by a Chinese Government Scholarship for Chinese University Program (CUP) provided by China Scholarship Council (CSC) and the Ministry of Education (MOE), P. R. China. Candidates should fulfil the eligibility criteria for the award.

The Research Project

The FunMat Laboratory (Group website: http://funmat.www.lhslbm.com) was founded by Prof. Jingping Hu from the University of Oxford in 2014. This Lab is devoted to understand the degradation mechanisms in various advanced oxidation processes (AOP), to design novel electrochemical sensors for environmental monitoring and to explore resource recovery of solid waste as environmental functional materials.

The on-going projects include: Understanding various advanced oxidation processes for industrial waste water treatment, including electrochemical Oxidation, nano zero-valent iron reduction and oxidation, photocatalytic Oxidation and microbial fuel cell system; exploring electrochemical sensing for environmental monitoring using electrochemical system, Microfluidic environmental sensors and microbial electrochemical system; investigating resource recovery of solid waste as as environmental functional materials, for use as adsorbent for pollution control and electrodes for lithium sulphur batteries.

 

Research Directions

1) Industrial Wastewater Pollution Control: The electrocatalytic advanced oxidation processes

2) Electrochemical Environmental Sensing: Electrochemical sensing, Bioelectrochemical system (BES) based sensing technique, Microfluidic environmental sensors

3) Environment Function Material

The PhD Supervisors

Our research team consists of three supervisors, Prof. Jingping Hu, Associate Prof. Huijie Hou and Associate Prof. Bingchuan Liu, with around 20 research students and postdocoral researchers.

Prof. Dr Jingping Hu is a professor of environmental engineering at the Huazhong University of Science and Technology, and is chairing FunMat Laboratory. His research largely focuses on advanced oxidation process (AOP) for wastewater treatment, electrochemical sensing for environmental monitoring, resource recovery of solid waste as environmental functional materials. He has been published more 60 papers in several leading international journals, including Adv. Mat., Angew Chem, Anal. Chem. He was awarded the prestigious Newton Abraham studentship at Lincoln College and received his D.Phil from the University of Oxford (2004-2008). After graduation he was awarded as Sir William Ramsay Research Fellowship at the University of Oxford. In late 2013, Dr Hu was awarded the prestigious Chinese “Young Thousand Talents Programme“, and joined the Huazhong University of Science and Technology in Wuhan China in January 2014.

Associate Prof. Huijie Hou is an associate professor in Dept. Environmental Engineering at Huazhong University of Science and Technology, and she is also the recipient of “Huazhong” Scholor. Her research interests cover mainly microbial electrochemical systems for wastewater treatment, microsensors for environmental applications and advanced oxidation processes (AOPs) for wastewater treatment. She has published more than 20 papers in leading journals including Advanced Materials, Trends in Biotechnology, Lab Chip, etc.

Associate Prof. Bingchuan Liu is an associate professor of environmental engineering at the Huazhong University of Science and Technology, and is a member of FunMat Laboratory. His research largely focuses on 1. Bioelectrochemical system based environmental sensing technology; 2. Sustainable bioenergy production from waste treatment; 3. Remote Bio-power source development in harsh environment. During his Ph.D study period, He has published 7 research papers as first/corresponding author and 12 research papers in total. Most of his research papers were published in top-ranked journals including Biosensor and Bioelectronics, Journal of Power Sources, International Journal of Hydrogen Energy.

 

Candidate Eligibility

Candidates should be an enthusiastic and self-motivated person who meets the academic requirements for enrolment for the PhD degree at Huazhong University of Science and Technolgy. You will have a 1st class honours degree in Environmental Engineering, Chemistry, Materials Science or a related subject, and an enquiring and rigorous approach to research together with a strong intellect and disciplined work habits. An interest in Environmental Electrochemistry is essential.  Good team-working, observational and communication skills are essential.

 

For further details of the post, please contact Prof Jingping Hu, hujp -AT- hust.edu.cn. Interested applicants should send up-to-date curriculum vitae, transcript of results and two academic references to Prof J. Hu. Suitable candidates will be required to complete related electronic application forms at the International Student Office in order for their scholarship application and qualifications to be addressed by the University international student office.