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发布时间:2017-12-24 | 浏览次数:

  邱静霞 研究员,硕士生导师
  地址:江苏大学 能源研究院

  1983年12月生,硕士生导师。2014年获格里菲斯大学(澳大利亚)环境化学博士学位。2014-2015年在昆士兰大学(澳大利亚)做博士后研究工作。共发表SCI期刊论文30余篇, 其中第一作者论文11篇。论文共被SCI引用400余次。参加国际会议6次,其中口头汇报2次。2015年入选江苏大学青年骨干教师培养工程。目前主持国家自然科学基金青年项目1项。

 2011.02 –2014.11,格里菲斯大学环境学院,黄金海岸校区,澳大利亚,博士
 2006.09 - 2009.07,浙江省重点实验室固体表面物理化学研究所, 浙江师范大学,中国,硕士
 2002.09 - 2006.07,化学与化学工程系,盐城师范学院,中国,学士

 2009.08- 2011.02  客座研究员,格里菲斯大学环境学院,黄金海岸校区,澳大利亚
  2009.07–2011.02 助理研究员,浙江省重点实验室固体表面物理化学研究所,浙江师范大学,中国
  2014.10-2015.10  博士后,化学与分子生物科学学院,昆士兰大学,澳大利亚

  2016-2018  金属氧化物的快速氢化及其在钠离子电池中的应用(NSFC21506077),国家自然科学基金,主持人

  1. Qiu, J., Lai, C., Gray, E., Li, S., Qiu, S., Strounina, E., Sun, C.H., Zhao, H. and Zhang, S., Blue hydrogenated lithium titanate as a high-rate anode material for lithium-ion batteries. J Mater Chem A, 2014, 2(18): 6353-6358. (IF: 7.443)
  2. Qiu, J., Li, S., Gray, E., Liu, H.W., Gu, Q., Sun, C., Lai, C., Zhao, H. and Zhang, S., Hydrogenation synthesis of blue TiO2 for high-performance lithium-ion batteries. J Phys Chem C, 2014, 118(17): 8824-8830. (IF: 4.772)
  3. Qiu, J., Dawood, J. and Zhang, S., Hydrogenation of nanostructured semiconductors for energy conversion and storage. Chinese Sci Bull, 2014, 59(18): 2144-2161. (IF: 1.579)
  4. Qiu, J., Zhang, P., Ling, M., Li, S., Liu, P.R., Zhao, H.J. and Zhang, S.Q., Photocatalytic synthesis of TiO2 and reduced graphene oxide nanocomposite for lithium ion battery. ACS Appl Mater Inter, 2012, 4(7): 3636-3642. (IF: 6.723)
  5. Qiu, J., Lai, C., Wang, Y., Li, S. and Zhang, S., Resilient mesoporous TiO2/graphene nanocomposite for high rate performance lithium-ion batteries. Chem Eng J, 2014, 256: 247-254. (IF: 4.321)
  6. Qiu, J., Lai, C., Li, S. and Zhang, S., High-performance amorphous carbon-graphene nanocomposite anode for lithium-ion batteries. RSC Adv, 2014, 4(36): 18899-18903. (IF: 3.84)
  7. Qiu, J., Zhang, S. and Zhao, H., Nanostructured TiO2 photocatalysts for the determination of organic pollutants. J Hazard Mater, 2012, 211: 381-388. (IF: 4.529)
  8. Qiu, J., Zhang, S. and Zhao, H., Recent applications of TiO2 nanomaterials in chemical sensing in aqueous media. Sensor Actuat B-Chem, 2011, 160(1): 875-890. (IF: 4.097)
  9. Li, S., Qiu, J., Lai, C., Ling, M., Zhao, H. and Zhang, S., Surface capacitive contributions: Towards high rate anode materials for sodium ion batteries. Nano Energy, 2015, 12: 224-230. (IF: 10.325)
  10. Ling, M., Qiu, J., Li, S., Yan, C., Kiefel, M.J., Liu, G. and Zhang, S., Multifunctional SA-PProDOT binder for lithium ion batteries. Nano Lett, 2015, 15(7): 4440-4447. (IF: 13.592)
  11. Ling, M., Xu, Y., Zhao, H., Gu, X., Qiu, J., Li, S., Wu, M., Song, X., Yan, C., Liu, G., and Zhang, S., Dual-functional gum arabic binder for silicon anodes in lithium ion batteries. Nano Energy, 2015, 12: 178-185. (IF: 10.325)
  12. Li, S., Ling, M., Qiu, J., Han, J. and Zhang, S., Anchoring ultra-fine TiO2-SnO2 solid solution particles onto graphene by one-pot ball-milling for long-life Lithium-ion batteries. J Mater Chem A, 2015, 3(18): 9700-9706. (IF: 7.443)
  13. Li, S., Qiu, J., Ling, M., Peng, F., Wood, B. and Zhang, S., Photoelectrochemical characterization of hydrogenated TiO2 nanotubes as photoanodes for sensing applications. ACS Appl Mater Inter, 2013, 5(21): 11129-11135. (IF: 6.723)
  14. Ling, M., Qiu, J., Li, S., Zhao, H., Liu, G. and Zhang, S., An environmentally benign LIB fabrication process using a low cost, water soluble and efficient binder. J Mater Chem A, 2013, 1(38): 11543-11547. (IF: 7.443)
  15. Zhang, P., Qiu, J., Zheng, Z., Liu, G., Ling, M., Martens, W., Wang, H., Zhao, H. and Zhang, S., Free-standing and bendable carbon nanotubes/TiO2 nanofibres composite electrodes for flexible lithium ion batteries. Electrochim Acta, 2013, 104: 41-47. (IF: 4.504)
  16. Gu, X., Wang, Y., Lai, C., Qiu, J., Li, S., Hou, Y., Martens, W., Mahmood, N. and Zhang, S., Microporous bamboo biochar for lithium-sulfur batteries. Nano Res, 2015, 8(1): 129-139. (IF: 7.01)
  17. Li, S., Wang, Y., Qiu, J., Ling, M., Wang, H., Martens, W. and Zhang, S., SnO2 decorated graphene nanocomposite anode materials prepared via an up-scalable wet-mechanochemical process for sodium ion batteries. RSC Adv, 2014, 4(91): 50148-50152. (IF: 3.84)
  18. Li, S., Wang, Y., Lai, C., Qiu, J., Ling, M., Martens, W., Zhao, H. and Zhang, S., Directional synthesis of tin oxide@graphene nanocomposites via a one-step up-scalable wet-mechanochemical route for lithium ion batteries. J Mater Chem A, 2014, 2(26): 10211-10217. (IF: 7.443)
  19. Qiu, J., Chen, J., Ma, Q. and Miao, Y., Development of square wave voltammetry method for the assessment of organophosphorus compound impact on the cholinesterase of pheretima with 2,6-dichloroindophenol as a redox indicator. Chemosphere, 2009, 77(1): 129-132. (IF: 3.34)
  20. Zhu, Y., Qiu, J., Huang, Y., Wang, P. and Lai, C., Enhanced cycling performance of the Li4Ti5O12 anode in an ethers electrolyte induced by a solid-electrolyte interphase film. RSC Adv, 2015, 5: 56908-56912. (IF: 3.84)
  21. Liu, T., Qiu, J., Wang, B., Wang, Y., Wang, D. and Zhang, S., Dual roles of iron powder on the synthesis of LiFePO4@C/graphene cathode a nanocomposite for high-performance lithium ion batteries, RSC Adv, 2015, 5: 100018-100023. (IF: 3.84)
  22. Li, S., Xue, P., Lai, C., Qiu, J., Ling, M., and Zhang, S., Pseudocapacitance of amorphous TiO2@nitrogen doped graphene composite for high rate lithium storage, Electrochim Acta, 2015, 180: 112-119. (IF: 4.504)
  23. Ling, M., Zhao, H., Xiao, X., Shi, F., Wu, M.Y., Qiu, J., Li, S., Song, X., Liu, G. and Zhang, S., Low cost and environmentally benign crack-blocking structures for long life and high power Si electrodes in lithium ion batteries. J Mater Chem A, 2015, 3(5): 2036-2042. (IF: 7.443)
  24. Gu, X., Tong, C.-J., Lai, C., Qiu, J., Huang, X., Yang, W., Wen, B., Liu, L.-M., Hou, Y. and Zhang, S., A Porous nitrogen and phosphorous dual doped graphene blocking layer for high performance Li-S batteries. J Mater Chem A, 2015, 3(32): 16670-16678. (IF: 7.443)
  25. Atomsa Gonfa, B., Zhao, H., Li, J., Qiu, J., Saidani, M., Zhang, S., Izquierdo, R., Wu, N., El Khakani, M.A. and Ma, D., Air-processed depleted bulk heterojunction solar cells based on PbS/CdS core–shell quantum dots and TiO2 nanorod arrays. Sol Energy Mat Sol Cells, 2014, 124: 67-74. (IF: 5.337)
  26. Yu, H., Xue, B., Liu, P., Qiu, J., Wen, W., Zhang, S. and Zhao, H., High-Performance Nanoporous TiO2/La2O3 Hybrid Photoanode for Dye-Sensitized Solar Cells. ACS Appl Mater Inter, 2012, 4(3): 1289-1294. (IF: 6.723)
  27. Zhang, S., Qiu, J., Han, J., Zhang, H., Liu, P., Zhang, S., Peng, F. and Zhao, H., A facile one-step preparation of hierarchically-structured TiO2 nanotube array photoanodes with enhanced photocatalytic activity. Electrochem Commun, 2011, 13(11): 1151-1154. (IF: 4.847)
  28. Han, Y., Qiu, J., Miao, Y., Han, J., Zhang, S., Zhang, H. and Zhao, H., Robust TiO2/BDD heterojunction photoanodes for determination of chemical oxygen demand in wastewaters. Anal Methods-UK, 2011, 3(9): 2003-2009. (IF: 1.821)
  29. Sun, K., Qiu, J., Fang, K., Zhang, W. and  Miao, Y., Square wave voltammetry assay of organophosphorus inhibition on cholinesterase in two phases of isooctane/water, Electrochem Commun, 2009, 11(5): 1022-1025. (IF: 4.847)
  30. Qiu, J., Liu, J., Chen, J., Miao, Y. and Zhang, S., Controlled synthesis of prussian blue nanoparticles based on polymyxin B/sodium bis(2-ethylhexyl) sulfosuccinate / water/ isooctane reverse microemulsion for glucose biosensors, Int J Mater Res, 2010, 101: 1293-1297.
  31. Li, J., He, J., Qiu, J., Zhang, S., Zhao, H. and Miao, Y., A Uniquely configured acetylcholinesterase-lecithin biomimetic sensing structure at cyclohexane/water interface for electrochemical determination of fenthion in organic solvent, Electroanal, 2010, 22: 1061-1065. (IF: 2.138)
  32. Qiu, J., Liu, J., Sun, K. and Miao, Y., Characterization of Prussian blue nanoparticles prepared by reverse micelle and electrochemical study of their assembly, Surf Rev Lett, 2009, 16: 539-544. (IF: 0.38)
  33. Sun, K., Qiu, J., Liu, J. and Miao, Y., Preparation and characterization of gold nanoparticles using ascorbic acid as reducing agent in reverse micelles, J Mater Sci, 2009, 44(3): 754-758. (IF: 2.371)
  34. Liu, J., Qiu, J., Sun, K., Chen, J. and Miao, Y., Electrochemistry of hemin self-assembled from aqueous hexadecyltrimethylammonium bromide (CTAB) solution on single-wall-carbon -nanotube-modified glassy carbon electrodes, Helv Chim Acta, 2009, 92(3): 462-469. (IF: 1.138)

  1. Qiu J., Gray E, Zhang S, Hydrogenation of nanomaterials for energy storage devices, The E-MRS Spring Meeting, 2014, Lille, France (展板)
  2. Qiu J., Lai C, Zhang S., Mesoporous graphene nanocomposite: anchoring mechanisms and superior rate performance as anodes for lithium-ion batteries 9th Australia/New Zealand Electrochemistry Symposium, 2013, Melbourne, Australia (口头)
  3. Qiu J., Gray E, Zhang S, Zhao H, Hydrogenation of Semiconductors for Lithium Ion Batteries, Asia Pacific Conference on Energy and Environment Materials, 2013, Gold Coast, Australia (展板)
  4. Qiu J., Zhang S., In-situ Synchrotron XRD investigation on hydrogenation process of rutile nanorods for lithium ion batteries, The 224th ECS meeting, 2013, San Francisco, USA (口头)
  5. Qiu J., Zhang P., Zhao H., Zhang S., Photocatalytic synthesis of TiO2 and reduced graphene oxide nanocomposite for lithium ion battery, The 5th International Symposium on Functional Materials, 2012, Perth, Australia (展板)
  6. Qiu J., Zhang S., Zhao H., Hydrogenated rutile TiO2 nanorods as anode for Li-ion batteries, FOCSA Symposium, 2012, Perth, Australia (展板)

  1. Jianrong Chen, Jingxia Qiu, Yuqing Miao, Jiwei Liu. Electroanalytical applications of Prussian blue nanoparticles prepared in reverse micelles. (2007) CN 2007101473568


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