学习工作经历
教育经历:
2012.09—2016.06,武汉理工大学,无机非金属材料工程, 学士
2016.09—2021.06,武汉理工大学,材料科学与工程, 博士,导师:麦立强教授/周亮教授
工作经历:
2021.07—2024.06, 重庆大学,材料科学与工程学院,助理研究员/弘深博士后,合作导师:潘复生院士
2024.07—2024.08,重庆大学,材料科学与工程学院,讲师/硕导
2024.09—至今,重庆大学,材料科学与工程学院,副研究员
社会兼职
担任《科技导报》青年编委
中国复合材料学会会员、中国化学会会员
Progress in Materials Science、Advanced Energy Materials、Journal of Magnesium and Alloys、Journal of Colloid and Interface Science、Journal of Power Sources、Materials Today Energy等多个期刊审稿人
主讲课程
主要研究方向
高比能镁电池关键电极材料及电解液
新型电化学储能材料及器件
纳米储能材料合成及电化学应用
科研项目
1. 中国科协第九届青年人才托举工程,30万,2024.01-2026.12,在研,主持
2. 国家自然科学基金青年项目,溶剂化镁离子共嵌入调控高电压铁氰化锰储镁性能及相变机,52202211,30万,2023.01-2025.12, 在研, 主持
3.中国博士后科学基金会, 第70批面上资助,镁硫电池用钒单原子固硫载体制备及其双向催化机制探,2021M700568,2021.11-2023.10,已结题, 主持
4. 科技部国家重点研发计划,高比能长寿命镁二次电池关键材料与技术,No.2023YFB3809500,1293.58万,2023.11-2026.10,在研,项目骨干
5. 国家自然科学基金区域联合项目,高性能镁二次电池用镁合金负极设计及其界面作用机制,No. U23A20555,253万,2024.01-2026.12,在研,项目骨干
6. 重庆市技术创新与应用发展专项重点项目,高性能镁电池关键材料及技术开发应用,No. CSTB2022TIAD-KPX0028,2023.0 -2025.12,200万,在研,项目骨干
论文及专著
已发表学术论文80余篇,其中以第一作者或通讯作者发表论文20余篇,包括Adv. Mater.、Natl. Sci. Rev.、ACS Nano、Adv. Funct. Mater.等;申请国家发明专利15件,已授权7件。个人主页:https://scholar.google.com/citations?user=otXXEOkAAAAJ&hl=zh-CN,主要成果如下:
[1] S. Tan, Y. Jiang, S. Ni, H. Wang, F. Xiong, L. Cui, X. Pan, C. Tang, Y. Rong, Q. An*, L. Mai*, Serrated lithium fluoride nanofibers-woven interlayer enables uniform lithium deposition for lithium-metal batteries, National Science Review, 2022, 9, nwac183.
[2] S. Tan*, J. Xu, R. Deng, Q. Zhao, C. Xu*, G. Huang, J. Wang, F. Pan, A perspective on the key factors of safety for rechargeable magnesium batteries, Journal of Energy Chemistry, 2024, 94, 656-676.
[3] T. Wen, S. Tan*, R. Li, X. Huang, H. Xiao, X. Teng, H. Jia, F. Xiong, G. Huang*, B. Qu, J. Song, J. Wang, A. Tang, F. Pan*, Large-Scale Integration of the Ion-Reinforced Phytic Acid Layer Stabilizing Magnesium Metal Anode, ACS Nano, 2024, 18, 11740-11752.
[4] X. Huang, S. Tan*, J. Chen, Z. Que, R. Deng, J. Long, F. Xiong, G. Huang, X. Zhou, L. Li*, J. Wang, L. Mai* and F. Pan, Asymmetric SO3CF3−-grafted boron-center anion enables boron-containing interphase for high-performance rechargeable Mg batteries, Advanced Functional Materials, 2024, 30, 2314146.
[5] T. Wen, H. Xiao, S. Tan*, X. Huang, B. Qu, L. Cao, G. Huang*, J. Song, J. Wang, A. Tang, J. Yue*, F. Pan, Interfacial chemistry of anode/electrolyte interface for rechargeable magnesium batteries, Journal of Magnesium and Alloys, 2024, DOI: 10.1016/j.jma.2024.04.010.
[6] F. Xiong, X. Liu, C. Zuo, X. Zhang, T. Yang, B. Zhou, G. Zhang, S. Tan*, Q. An*, P. Chu*, Percolating Network of Anionic Vacancies in Prussian Blue: Origin of Superior Ammonium-Ion Storage Performance, The Journal of Physical Chemistry Letters, 2024, 15, 1321-1327.
[7] Z. He, Y. Hui, Y. Yang, F. Xiong, S. Li, J. Wang, R. Cao, S. Tan*, Q. An*, Electrode and Electrolyte Co-Energy-Storage Electrochemistry Enables High‐Energy Zn-S Decoupled Batteries, Small, 2024, 2402325.
[8] J. Chen, S. Tan*, L. Li, G. Huang, J. Wang, F. Pan, The Metamorphosis of Mg(SO3CF3)2-based Electrolytes for Rechargeable Magnesium Batteries, ChemElectroChem, 2024, 11, e202300664.
[9] L. Luo, S. Tan*, Z. Gao, X. Yang*, J. Xu*, G. Huang, J. Wang, F. Pan, Theoretical insights into the intercalation mechanism of Li, Na, and Mg ions in a metallic BN/VS2 heterostructure, Physical Chemistry Chemical Physics, 2024, 26, 7001-7009.
[10] Y. Du, Y. Chen, S. Tan*, Z. Wang, L. Cui, J. Long, X. Yao, J. Chen, X. Huang, B. Shang, G. Huang, X. Zhou, L. Li*, J. Wang and F. Pan, Strong solvent coordination effect inducing gradient solid-electrolyte-interphase formation for highly efficient Mg plating/stripping, Energy Storage Materials, 2023, 62, 102939.
[11] C. Chen, J. Chen, S. Tan*, X. Huang, Y. Du, B. Shang, B. Qu, G. Huang, J. Wang, L. Li*, F. Pan, Regulating solvation sheath by introducing multifunctional fluoride boronic esters for highly efficient magnesium stripping/plating, Energy Storage Materials, 2023, 59, 102792.
[12] H. Liu, S. Tan*, Z. Wang, Y. Chen, J. Yue, D. Wang, G. Huang*, J. Wang and F. Pan. Binary Mg‐1at% Gd alloy anode for high‐performance rechargeable magnesium batteries, ChemSusChem, 2023, 17, e202301589.
[13] L. Luo, S. Tan*, Z. Gao, X. Yang*, J. Xu, G. Huang, J. Wang, F. Pan, A two-dimensional VO2/VS2 heterostructure as a promising cathode material for rechargeable Mg batteries: a first principles study, Physical Chemistry Chemical Physics, 2023, 25, 26289-26297.
[14] C. Ban, Y. Wang, J. Ma, Y. Feng, J. Ding, Y. Duan, X. Liu, B. Zhang, J. Tang, X. Tao, L. Gan, S. Tan*, X. Zhou*, Constructing C-doped TiO2/β-Bi2O3 hybrids Z-scheme heterojunction for enhanced CO2 photoreduction, Separation and Purification Technology, 2023, 326, 124745.
[15] C. Sun, F. Yang, G. Huang*, L. Li, Z. Wang, B. Qu, C. Xu, S. Tan*, a, b J. Wang, F. Pan*, Layered buserite Mg-Mn oxide cathode for aqueous rechargeable Mg-ion battery, Journal of Magnesium and Alloys, 2023, 11, 840-850.
[16] J. Long, Y. An, Z. Yang, G. Zhang, J. Zhang, S. Tan*, Q. An*, Efficient boron-based electrolytes constructed by anionic and interfacial co-regulation for rechargeable magnesium batteries, Chemical Engineering Journal, 2023, 461, 141901.
[17] S. Tan, Y. Jiang, Q. Wei*, Q. Huang, Y. Dai, F. Xiong, Q. Li, Q. An, X. Xu, Z. Zhu, X. Bai*, L. Mai*, Multidimensional synergistic nanoarchitecture exhibiting highly stable and ultrafast sodium-ion storage, Advanced Materials, 2018, 30, 1707122.
[18] S. Tan, Y. Dai, Y. Jiang, Q. Wei, G. Zhang, F. Xiong, X. Zhu, Z.‐Y. Hu, L. Zhou, Y. Jin*, K. Kanamura*, Q. An*, L. Mai, Revealing the origin of highly efficient polysulfide anchoring and transformation on anion‐substituted vanadium nitride Host. Advanced Functional Materials, 2020, 2008034.
[19] S. Tan, F. Xiong, J. Wang, Q. An*, L. Mai*, Crystal regulation towards rechargeable magnesium battery cathode materials. Materials Horizons, 2020, 7, 1971-1995.
[20] S. Tan, Y. Pan, Q. Wei, Y. Jiang, F. Xiong, X. Yao, Z. Cai, Q. An, L. Zhou, L. Mai*. Polyol solvation effect on tuning the universal growth of binary metal oxide nanodots@graphene oxide heterostructures for electrochemical applications. Chemistry–A European Journal, 2019, 25, 14604-14612.
专利
(1)谭双双,杜瑶瑶,李凌杰,黄光胜,王敬丰,潘复生,一种不含氟以外卤素可充镁电池电解液及其制备方法和应用,中国发明专利,申请号:202211343791.9,已授权
(2)谭双双,黄雪婷,李凌杰,黄光胜,王敬丰,潘复生,非对称异构硼中心阴离子镁电解质盐、电解液及其制备方法和应用,中国发明专利,申请号:202311445751.X,已授权
(3)谭双双,阙紫玮,李凌杰,黄光胜,王敬丰,潘复生,一种低温可充镁电池电解液及其制备方法和应用,中国发明专利,申请号:202410403573.2,已公开
(4)谭双双,阙紫玮,李凌杰,黄光胜,王敬丰,潘复生,一种低温高熵可充镁电池电解液及其制备方法和应用,中国发明专利,申请号:202410403562.4,已公开
(5)谭双双,李凌杰,黄光胜,瞿佰华,王敬丰,潘复生,苏建章,一种镁基电池正极材料及高电压镁基电池,中国发明专利,申请号:202210940065.9,已公开
(6)谭双双,黄佳,黄光胜,王敬丰,潘复生,苏建章,一种镁锰基普鲁士白材料及其制备方法和应用,中国发明专利,申请号:202311671707.0,已公开
表彰及奖励
2024年国际镁科学与技术奖年度优秀论文奖
2024年第一季度威立Wiley中国高贡献作者奖
第八届中国国际“互联网+”大学生创新创业大赛重庆赛区优秀创新创业导师
武汉理工大学优秀博士论文
科研团队
潘复生院士团队
已培养学生(联合)5人:
已培养学生(联合)5人:
杜瑶瑶,2023届硕士,长安汽车
罗凌霄,2024届硕士,厦门大学攻读博士
高志鹏,2024届硕士,重庆大学攻读博士
阙紫玮,2024届硕士,重庆新型储能材料与装备研究院
师鹏飞,2024届硕士,万华化学
依托平台:
国家镁合金材料工程技术研究中心
重庆新型储能材料与装备研究院
国家储能技术产教融合创新平台
