Associate Professor
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates
Date of Employment:2019-03-11
School/Department:Chemistry and Chemical Engineering
Education Level:PhD Graduate
Business Address:湖南省长沙市岳麓区中南大学新校区新化学楼530室
Sex:Male
Contact Information:sundan4330@csu.edu.cn
Degree:Doctoral degree
Status:Employed
Alma Mater:中南大学
Discipline:Chemical Engineering and Technology
孙旦,男,1990年生,博士,副教授,博士生导师,湖南岳阳人。中南大学与昆士兰大学联合培养博士。2019年3月进入中南大学化学化工学院工作。入选中国科协“青年人才托举工程”,现为湖南省优青,湖南省三尖人才,《Frontiers in Energy research》期刊Associate editor、《Rare Metals》《Tungsten》期刊青年编委,宁乡市新材料制造产业专家指导委员会委员。近几年一直从事能源材料化学和应用电化学的基础研究,目前以第一或通讯作者在Nature Communications,Angew. Chem. Int. Ed., Energy & Environmental Science, Electrochemical Energy Review, Adv Energy Mater, ACS Energy Lett., Nano Energy, Energy Storage Materials等国内外知名期刊发表论文50余篇,入选ESI全球高引论文10篇,申请国家发明专利10项,获授权5项。获2020年湖南省自然科学奖二等奖、湖南省化学化工学会第十八届青年化学化工奖、2019年中国产学研合作创新成果奖二等奖、2019年中国石油和化学工业联合会科学技术三等奖等奖项。承担国家自然科学基金(面上项目/青年项目),湖南省自然科学基金(优秀青年/面上项目/青年项目),中南大学科研启动基金及多项横向产业化项目,作为主要成员参与国家自然科学基金区域探索联合基金,湖南重点研发计划,广东省重大专项等科研项目多项。
热忱欢迎具有电化学、材料及相关学科背景的本科生、研究生加入研究团队。每年计划招收研究生1-2名。
联系方式:sundan4330@csu.edu.cn.
本课题组与国(境)外著名高校及科研机构建立了良好的合作关系,可提供海外名校知名课题组学习、访问、交流机会,并积极推荐到国(境)外著名研究组攻读博士学位或开展博士后研究!
代表性论著
2023年
[35] Zheng Tang, Rui Zhang, Haiyan Wang*, Siyu Zhou, Zhiyi Pan, Yuancheng Huang, Dan Sun*, Yougen Tang, Xiaobo Ji, and Minhua Shao*. Revealing the closed pore formation of waste wood-derived hard carbon for advanced sodium-ion battery. Nature Communications,2023,Accepted.
[34] Jiaming Zhang, Qiuping Li, Yaping Zeng, Zheng Tang,Dan Sun,* Dan Huang, Yougen Tang,* and Haiyan Wang. Weakly Solvating Cyclic Ether Electrolyte for High-Voltage Lithium Metal Batteries. ACS Energy Lett. 2023, 8, 1752−1761
[33]Zheng Tang, Siyu Zhou, Yuancheng Huang, Hong Wang, Rui Zhang, Qi Wang, Dan Sun*, Yougen Tang, Haiyan Wang. Improving the Initial Coulombic Efciency of Carbonaceous Materials for Li/Na‑Ion Batteries: Origins, Solutions, and Perspectives. Electrochemical Energy Reviews (2023) 6:8
[32]Jiaming Zhang, Yaping Zeng, Qiuping Li, Zheng Tang, Dan Sun*, Dan Huang, Le Zhao, Yougen Tang*, Haiyan Wang*. Polymer-in-salt electrolyte enables ultrahigh ionic conductivity for advanced solid-state lithium metal batteries. Energy Storage Materials 54 (2023) 440–449
[31]Qian Zhao,Hongshuai Yu, Liang Fu*, Pengfei Wu, Yihu Li, Yixin Li*, Dan Sun*, Haiyan Wang and Yougen Tang. Electrolytes for aluminum–air batteries: advances, challenges, and applications. Sustainable Energy Fuels, 2023,7, 1353-1370
2022年
[30]Hongshuai Yu, Pengfei Wu, Dan Sun*, Haiyan Wang, and Yougen Tang*. Strengthening the Hydrogen-Bond Network for Practical Aqueous Aluminum–Air Battery. Ind. Eng. Chem. Res. 2022, 61, 34,
[29]Zhao, Qian; Wu, Pengfei; Sun, Dan*; Wang, Haiyan; Tang, Yougen*. A dual-electrolyte system for highly efficient Al-air batteries. Chem. Commun., 2022, 58, 3282–3285
[28] Zheng Tang‡, Hong Wang‡, Peng-Fei Wu, Si-Yu Zhou, Yuan-Cheng Huang, Rui Zhang, Dan Sun*, You-Gen Tang and Hai-Yan Wang*. Electrode-electrolyte interfacial chemistry modulation for ultra-high rate sodium-ion battery. Angew Chem. Int. Ed., 2022, e202200475, hot paper.
[27] Pengfei Wu, Qian Zhao, Hongshuai Yu, Zheng Tang, Yihu Li, Dan Huang, Dan Sun*, Haiyan Wang, Yougen Tang*. Modification on water electrochemical environment for durable Al-Air Battery: Achieved by a Low-Cost sucrose additive. Chemical Engineering Journal 438 (2022) 135538
[26] Zhou S, Tang Z, Pan Z, Huang Yuancheng, Zhao Le, Zhang Xi, Sun Dan*, Tang Yougen, Abdelghaffar S. Dhmees, Wang Haiyan*. Regulating closed pore structure enables significantly improved sodium storage for hard carbon pyrolyzing at relatively low temperature. SusMat. 2022;1-11. https://doi.org/10.1002/sus2.60
[25]Qian Zhao, Pengfei Wu, Dan Sun*, Haiyan Wang and Yougen Tang*. A dual-electrolyte system for high efficient Al–air batteries. Chemical Communications, 2022, DOI: 10.1039/D1CC07044D
2021年
[24]Jiaming Zhang, Qiuping Li, Yaping Zeng, Zheng Tang, Dan Sun*, Dan Huang, Zhiguang Peng, Yougen Tang*, Haiyan Wang*.Molybdenum host and interphase induced decentralized lithium deposition for dendrite-free lithium metal anodes, Chemical Engineering Journal , 2021, 10.1016/j.cej.2021.131110
[23]Yihu Li, Pengfei Wu, Wei Zhong, Chunlin Xie, Yanling Xie, Qi Zhang, Dan Sun*, Yougen Tang, Haiyan Wang*. Progressive nucleation mechanism enables stable zinc stripping-plating behavior. Energy & Environmental Science, 2021, 14(10): 5563-5571(高被引论文)
[22] Ze Feng†, Shan Zhang†, Ranjusha Rajagopalan†, Xiaobing Huang‡, Yurong Ren⸸, Dan Sun†,*, Haiyan Wang†, Yougen Tang†,*, Dual Elements Modified Single-crystal LiNi0.6Co0.2Mn0.2O2 as a Highly Stable Cathode for Lithium-ion Batteries. ACS Applied Mater & Interface, 2021, 13(36):43039-43050
[21]Rui Zhang,‡ Zheng Tang,‡ Dan Sun,* Ruiyi Li, Wenhao Yang, Siyu Zhou, Zhiyong Xie,* Yougen Tang and Haiyan Wang*. Chem. Commun., 2021, 57, 4243 (Chemical Communicationd Hot paper)
2020年:
[20] Chunlin Xie#, Yihu Li#, Qi Wang, Dan Sun*, Yougen Tang, Haiyan Wang*. Issues and solutions towards zinc anode in aqueous Zinc-ion batteries: A mini review. Carbon Energy, 2020;1–21. DOI: 10.1002/cey2.67
[19] Shengan Wu, Qi Zhang, Dan Sun*, Yougen Tang, Haiyan Wang*, Interfacial design of Al electrode for efficient aluminum-air batteries: issues and advances. Mater. Today Energy, 2020, doi: 10.1016/j.mtener.2020.100499.
[18] Wu, S.; Hu, S.; Zhang, Q.; Sun D*.; Wu, P.; Tang, Y.*; Wang, H.*, Hybrid high-concentration electrolyte significantly strengthens the practicability of alkaline aluminum-air battery. Energy Storage Materials 2020, 31, 310-317.
[17] Pan, ZY., Tang, Z., Zhan, YZ*. Sun D*. Three-dimensional porous CoNiO2@reduced graphene oxide nanosheet arrays/nickel foam as a highly efficient bifunctional electrocatalyst for overall water splitting. Tungsten (2020). https://doi.org/10.1007/s42864-020-00065-3 (封面论文)
[16] Wu, S.; Zhang, Q.; Sun, D.*; Luan, J.; Shi, H.; Hu, S.; Tang, Y*.; Wang, H.*, Understanding the synergistic effect of alkyl polyglucoside and potassium stannate as advanced hybrid corrosion inhibitor for alkaline aluminum-air battery. Chemical Engineering Journal 2020, 383.
[15] Zhang, R.; Tang, Z.; Wang, H.; Sun, D.*; Tang, Y.*; Xie, Z.*, The fabrication of hierarchical MoO2@MoS2/rGO composite as high reversible anode material for lithium ion batteries. Electrochimica Acta 2020, 364.
[14] Zhu, L.#; Wang, H.#; Sun, D.*; Tang, Y.; Wang, H*., A comprehensive review on the fabrication, modification and applications of Na3V2(PO4)2F3 cathodes. Journal of Materials Chemistry A 2020, 8 (41), 21387-21407.
[13] Zhu, L.; Zhang, Q.; Sun, D.*; Wang, Q.; Weng, N.; Tang, Y.; Wang, H.*, Engineering the crystal orientation of Na3V2(PO4)2F3@rGO microcuboids for advanced sodium-ion batteries. Materials Chemistry Frontiers 2020, 4 (10), 2932-2942. (封面论文)
[12] Wu, P.; Wu, S.; Sun, D.*; Tang, Y.; Wang, H., A Review of Al Alloy Anodes for Al-Air Batteries in Neutral and Alkaline Aqueous Electrolytes. Acta Metallurgica Sinica-English Letters 2020.
[11] Feng Z, Rajagopalan, R, Sun D*, Tang YG*, Wang HY*, In-situ formation of hybrid Li3PO4-AlPO4-Al(PO3)3 coating layer on LiNi0.8Co0.1Mn0.1O2 cathode with enhanced electrochemical properties for lithium-ion battery. Chemical Engineering Journal 2020, 382. (高被引论文)
2019年:
[10]Sun D, Luo B, Tang YG, Wang HY, Wang LZ, Engineering the trap effect of residual oxygen atoms and defects in hard carbon anode towards high initial Coulombic efficiency. Nano Energy (2019) 233–251 (IF=15, JCR 1区)
[9] Sun D, Huang D, Wang HY, et al. 1T MoS2 nanosheets with extraordinary sodium storage properties via thermal-driven ion intercalation assisted exfoliation of bulky MoS2. Nano Energy, 2019, 61: 361-369 (IF=15, JCR 1区)
[8] He HN#,Sun D#, Tang YG, et al. Understanding and improving the initial Coulombic efficiency of high-capacity anode materials for practical sodium ion batteries. Energy Storage Materials, 2019 (Co-author, DOI:10.1016/j.ensm.2019.05.008) (高被引论文)
2018年及以前:
[7] Sun D, Zhu X B, Luo B, Zhang Y, Tang Y G, Wang H Y, Wang L Z. New Binder-Free Metal Phosphide-Carbon Felt Composite Anodes for Sodium-Ion Battery. Advanced Energy Materials, 2018, 1801197(IF=21.875, JCR 1区)
[6] Sun D, Ye D L, Liu P, Tang Y G, Guo J, Wang L Z, and Wang H Y. MoS2/Graphene Nanosheets from Commercial Bulky MoS2 and Graphite as Anode Materials for High Rate Sodium-Ion Batteries[J]. Advanced Energy Materials, 2018, 8(10), 1702383 (IF=21.875,JCR 1区,ESI高被引论文)
[5] Sun D, Tang Y G, Ye D L, Yan J, Zhou H S, and Wang H Y. Tuning the Morphologies of MnO/C Hybrids by Space Constraint Assembly of Mn-MOFs for High Performance Li Ion Batteries[J]. ACS Applied Materials & Interfaces, 2017, 9(6): 5254-5262. (IF=8.1,JCR 1区,ESI高被引论文)
[4]Sun D, Xue X, Tang Y G, Jing Y, Huang B, Ren Y, Yao Y, Wang H Y, and Cao G Z. High-Rate LiTi2(PO4)3@N-C Composite via Bi-nitrogen Sources Doping[J]. ACS Applied Materials & Interfaces, 2015, 7(51): 28337-28345. (IF=8.1,JCR 1区)
[3] Sun D, Jin G, Wang H, Huang X, Ren Y, Jiang J, He H, and Tang Y. LixV2O5/LiV3O8 nanoflakes with significantly improved electrochemical performance for Li-ion batteries[J]. Journal of Materials Chemistry A, 2014, 2(21): 8009-8016. (IF=9.9,JCR 1区)
[2] Sun D, Jin G H, Wang H Y, Liu P, Ren Y, Jiang Y F, Tang Y G, and Huang X B. Aqueous rechargeable lithium batteries using NaV6O15 nanoflakes as high performance anodes[J]. Journal of Materials Chemistry A, 2014, 2(32): 12999-13005. (IF=9.9,JCR 1区)
[1] Sun D, Wang H Y, Ding P, Zhou N, Huang X B, Tan S, and Tang Y G. In-situ synthesis of carbon coated Li2MnSiO4 nanoparticles with high rate performance[J]. Journal of Power Sources, 2013, 242: 865-871.(IF=6.9,JCR 1区)
