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。

2015-至今 研究员，江苏大学 2014-2015 博士后，化学与分子生物科学学院，昆士兰大学，澳大利亚 2009-2011 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 2009-2011 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

承担项目 2018-2020多孔生物炭改性锂硫电池正极材料的制备及其电化学性能研究(XNY-013)，江苏省六大人才高峰资助项目，主持 2016-2018金属氧化物的快速氢化及其在钠离子电池中的应用(21506077)，国家自然科学基金，已结题 2016-2017氢化金属氧化物材料用作钠离子电池材料的性能研究(2016M591787)，中国博士后基金，已结题

近5年代表性论文 1. Wang, G; Shao, M; Ding, HR; Qi, Y; Lian, JB; Li, S*; Qiu, JX*; Li, HM; Huo, FW*; Multiple Active Sites of Carbon for High-Rate Surface-Capacitive Sodium-Ion Storage, Angew. Chem. Int. Ed., 2019, DOI: 10.1002/anie.201908159 (IF:12.257) 2. Wang, G; Qi, Y; Zhang, DW; Bao, J; Xu, L; Zhao, Y; Qiu, JX*; Yuan, SQ; Li, HM*; Rational Design of Porous TiO2@N-Doped Carbon for High Rate Lithium-Ion Batteries, Energy Technol., 2019, DOI: 10.1002/ente.201800911 (IF:3.163) 3. Li, S*; Gao, C; Hua, D; Wang, G; Guo, SH; Qiu, JX*; Su, XT*; Bi2S3 Nanorods Bonding on Reduced Graphene Oxide Surface as Advanced Anode Materials for Sodium-Ion Batteries, Energy Technol., 2019, DOI: 10.1002/ente.201800876 (IF:3.163) 4. Zhang, DW; Wang, G; Xu, L; Lian, JB; Bao, J; Zhao, Y; Qiu, JX*; Li, HM*, Defect-rich N-doped porous carbon derived from soybean for high rate lithium-ion batteries, Appl. Surf. Sci., 2018, 454: 298-305 (IF:5.155) 5. Qiu, JX; Li, S; Su, XT; Wang, YZ; Xu, L; Yuan, SQ; Li, HM; Zhang, SQ, Bismuth nano-spheres encapsulated in porous carbon network for robust and fast sodium storage, Chem. Eng. J., 2017, 320: 300-307 (IF:8.355) 6. Qiu, JX, 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: 10.733) 7. Qiu, JX, 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: 4.309) 8. Qiu, JX, Dawood, J., Zhang, S., Hydrogenation of nanostructured semiconductors for energy conversion and storage. Chinese Sci Bull, 2014, 59(18): 2144-2161. (IF: 1.579) 9. Qiu, JX, 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: 8.456) 10. Qiu, JX, Lai, C., Wang, Y., Li, S., Zhang, S., Resilient mesoporous TiO2/graphene nanocomposite for high rate performance lithium-ion batteries. Chem Eng J, 2014, 256: 247-254. (IF: 8.355) 11. Qiu, JX, Lai, C., Li, S., Zhang, S., High-performance amorphous carbon-graphene nanocomposite anode for lithium-ion batteries. RSC Adv., 2014, 4(36): 18899-18903. (IF: 3.049) 12. Qiu, JX, Zhang, S, Zhao, H, Nanostructured TiO2 photocatalysts for the determination of organic pollutants. J. Hazard Mater., 2012, 211: 381-388. (IF: 7.65) 13. Qiu, JX, Zhang, S, Zhao, H, Recent applications of TiO2 nanomaterials in chemical sensing in aqueous media. Sensor Actuat. B-Chem., 2011, 160(1): 875-890. (IF: 6.393) 14. Li, S., Qiu, J., Lai, C., Ling, M., Zhao, H., Zhang, S., Surface capacitive contributions: Towards high rate anode materials for sodium ion batteries. Nano Energy, 2015, 12: 224-230. (IF: 15.548) 15. Ling, M., Qiu, J., Li, S., Yan, C., Kiefel, M.J., Liu, G., Zhang, S., Multifunctional SA-PProDOT binder for lithium ion batteries. Nano Lett, 2015, 15(7): 4440-4447. (IF: 12.279) 16. Ling, M., Xu, Y., Zhao, H., Gu, X., Qiu, J., Li, S., Wu, M., Song, X., Yan, C., Liu, G., Zhang, S., Dual-functional gum arabic binder for silicon anodes in lithium ion batteries. Nano Energy, 2015, 12: 178-185. (IF: 15.548) 17. Li, S., Ling, M., Qiu, J., Han, J., 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: 10.733) 18. 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: 8.515) 19. Zhu, Y., Qiu, J., Huang, Y., Wang, P., 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: 3.049) 20. Liu, T., Qiu, J., Wang, B., Wang, Y., Wang, D., 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: 3.049) 21. 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: 10.733)

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