洪振生
福建漳州漳浦人(1985-),材料化学博士,三级教授,博士生/硕士生导师,德国洪堡资深学者。 长期从事电化学储能材料设计、制备和器件构造的一体化研究,主持国家自然科学基金3项(2个面上,1个青年),主持福建省“雏鹰计划”青年拔尖人才、福建省杰出青年基金、省基金重点项目和成果转化等9个项目。累计发表SCI论文100余篇(第一/通讯作者论文60多篇),第一/通讯作者论文包括国际顶级期刊美国科院院院刊PNAS (2篇)、Adv. Mater.、Adv. Energy Mater.、ACS Nano、Adv. Funct. Mater. (2篇)、Energy Environ. Sci. (2篇)、ACS Energy Lett.、Nano Energy (7篇)和Energy Storage Mater. (3篇)等。第一/通讯作者大类SCI一区50多篇。此外,开发出一系列具有自主知识产权的钠电池电极材料,以第一发明人授权国家发明专利20项(转让2项),硬碳材料研究成果实现成果转化和国产化应用(单项发明专利转让壹佰万元整),入选福建省科技厅成果转化典型案例。
研究领域:
1. 钠离子电池关键正负极材料及界面调控;
2. 固态锂/钠电池及界面电化学。
教育及工作经历:
2018/12至今,福建师范大学,教授(破格);
2019/08-2020/10 德国科隆大学(University of Cologne), 资深洪堡研究员,合作者:Sanjay Mathur (欧洲科学院院士,Nano Energy 副主编);
2015/12-2018/12 福建师范大学,副教授(破格);
2013/09-2015/12 福建师范大学,讲师;
2008/09-2013/6 福州大学,材料化学,博士, 导师:魏明灯教授;
2004/09-2008/7 福州大学,化学基地班,本科。
学术兼职:
中国固态离子学会青年理事,国家自然科学基金项目通讯评审专家。 Nat. Nanotech., Nat. Commun., Adv. Mater., Adv. Energy Mater.ACS Nano,《化学学报》等国际、国内著名期刊通讯评审。
已发表代表论文:
[1] Xuwu Xiao, Cheng Cheng, Zhensheng Hong*et al. Dynamics Engineering of Composite MoS2 Electrode toward Photo-Rechargeable Sodium-Ion Batteries,Adv. Funct. Mater., 2026, Accepted.
[2] Si Zhao, Yuhang Li, Zhensheng Hong*et al. Presodiated Hard Carbon Anode with Inorganic-Rich Interphase for Solid-State Sodium Batteries,ACS Energy. Lett., 2026, 11, 3190.
[3] Xuwu Xiao, Cheng Cheng, Zhensheng Hong*et al. Phase-Engineered 1T/2H-MoS2 Heterostructures for High-Conversion-Efficiency Lithium-Ion Photobatteries,ACS Nano, 2026, 20, 8648.
[4] Jialin Xu, Baolong Liang, Zhensheng Hong* et al. Ultra-stable, high-rate solid-state sodium batteries with bulk–interface engineering of NaCrO2 cathode, J. Colloid Interface Sci., 2026, 708, 139811.
[5] Si Zhao, Xudong Chen, Zhensheng Hong* et al. π-Conjugated zinc phthalocyanine in polymer electrolyte induced stable interface for room-temperature solid-state lithium batteries, J. Colloid Interface Sci., 2026, 703, 139069.
[6] Si Zhao, Haoheng Wang, Zhensheng Hong* et al. Inhibiting microdomain crystallinity of polymer-based electrolytes toward high-performance solid-state sodium batteries, Nano Energy,2025, 145, 111473.
[7] Si Zhao, Zhensheng Hong*, Jun Lu*et al. Highly Reversible Sodium Metal Batteries Enabled by Extraordinary Alloying Reaction of Single-Atom, Adv. Energy Mater. 2025, 15, 2403432.
[8] Leyi Zhang, Lituo Zheng*, Zhensheng Hong* et al. Perfecting oxygen stoichiometry in cathode materials: A defect-control strategy for stable sodium-ion batteries, Energy Storage Mater.,2025, 82, 104556.
[9] Yingbin Hong , Lituo Zheng*, Zhensheng Hong* et al. Mapping the composition-property relationship of sodium cathode materials with materiomics, Nano Energy,2025, 137, 110814.
[10] Yingbin Hong , Lituo Zheng*, Zhensheng Hong* et al. Fe-rich layered oxide cathode for sodium-ion batteries enabled by synergistic modulation of ion transport and structural stability, Energy Storage Mater.,2025, 7, 104188.
[11] Yiwei Lv, Baolong Liang,Zhensheng Hong* et al. Synergistic doping boosts ionic conductivity of NASICON electrolytes for durable solid-state sodium batteries,Chem. Eng. J. 2025, 522, 167196.
[12] Si Zhao, Sanjay Mathur*, Zhensheng Hong* et al. Tailoring single atom materials for regulating metal anode deposition, Nano Energy,2025, 135, 110665.
[13] Si Zhao, X. Chen, Zhensheng Hong* et al. Tailoring a High Loading Atomic Zinc with Weak Binding to
Sodium Toward High-Energy Sodium Metal Batteries, Small,2025, 21, 2410941.
[14] Xudong Chen, Lituo Zheng*, Zhensheng Hong* et al. Dendrite-free Mg-MOF-based all-solid-state lithium metalbatteries with superior cycle life, Rare Met., 2025, 44, 2805.
[15] Baolong Liang, Lituo Zheng*, Zhensheng Hong* et al. Durable high voltage solid-state sodium batteries with Pseudocapacitive P2 layered oxide cathode, Energy Storage Mater.,2024, 73, 103804.
[16] Ziqing Song, Qiyan Du,Zhensheng Hong* et al. Joule heating for structure reconstruction of hard carbon with superior sodium ion storage performance,Chem. Eng. J. 2024, 496, 154103.
[17] Ziqing Song, Feng Li,Zhensheng Hong* et al. Sustainable Fabrication of a Practical Hard Carbon Anode for a Sodium-Ion Battery with Unprecedented Long Cycle Life,ACS Sustainable Chem. Eng. 2023, 11, 15020.
[18] Feng Li, Maria-Magdalena Titirici,Zhensheng Hong* et al. Ultrafast synthesis of battery grade graphite enabled by a multi-physics field carbonizatione,Chem. Eng. J. 2023, 461, 142128.
[19] Yang Chen, Maria-Magdalena Titirici,Zhensheng Hong* et al. Sustainable and scalable fabrication of high-performance hard carbon anode for Na-ion battery, J. Power Sources 2023, 557, 232534.
[20] Jianming Tao, Yue Chen, Aman Bhardwaj, Lang Wen Jiaxin Li, Oleg V. Kolosove, Yingbin Lin*, Zhensheng Hong*,Zhigao Huang and Sanjay Mathur*. Combating Li metal deposits in all-solid-state battery via the
piezoelectric and ferroelectric effects, PNAS,2022, 119, e2211059119.
[21] Si Zhao, Ruoxue Qiu, Jiasheng Su, Falei Li, Liu Yanting, Lituo Zheng*, Yiyin Huang, Mingdeng Wei,Zhensheng Hong*. Constructing low N/P ratio sodium-based batteries by reversible Na metal
electrodeposition on sodiophilic zinc-metal-decorated hard carbons, J. Power Sources, 2022, 544, 231862.
[22] Ruoxue Qiu, Si Zhao, Zhijin Ju, Yiyin Huang, Lituo Zheng, Ruqian Lian, Xinyong Tao*,Zhensheng Hong*. Sodiophilic skeleton based on the packing of hard carbon microspheres for stable sodium metal anode without dead sodium, J. Energy Chem., 2022, 73, 400-406.
[23] Jinshan Wang, Ruqian Lian, Si Zhao, Lituo Zheng, Yiyin Huang, Mingdeng Wei, Sanjay Mathur,Zhensheng Hong*. Ultrastable sodium metal plating/striping by engineering heterogeneous nucleation on TiO2 nanotube arrays,Chem. Eng. J. 2022, 431, 134272.
[24] Jianming Tao, Daoyi Wang, Yanmin Yang, Jiaxin Li, Zhigao Huang, Sanjay Mathur,* Zhensheng Hong,* and Yingbin Lin. Swallowing Lithium Dendrites in All-Solid-State Battery by Lithiation with Silicon Nanoparticles, Adv. Sci. 2022, 9, 2103786.
[25] Yang Chen, Si Zhao, Yueyue Yu, Mingdeng Wei, Sanjay Mathur, Zhensheng Hong*. A General Synthesis of Mesoporous Hollow Carbon Spheres with Extraordinary Sodium Storage Kinetics by Engineering Solvation Structure, Small, 2022, 18, 2106513.
[26] Yichao Zhen , Yang Chen, Feng Li, Zhenyu Guo, Zhensheng Hong*, and Maria-Magdalena Titiricic. Ultrafast synthesis of hard carbon anodes for sodium-ion batteries, PNAS, 2021, 118, e2111119118.
[27] Yanzhong Lu, Jinshan Wang, Yang Chen,Xinyu Zheng, Hurong Yao, Sanjay Mathur and Zhensheng Hong*. Spatially Controlled Lithium Deposition on Silver-Nanocrystals-Decorated TiO2 Nanotube Arrays Enabling Ultrastable Lithium Metal Anode, Adv. Funct. Mater., 2021, 31, 2009605.
[28] Zhensheng Hong*, Hajar Maleki , Tim Ludwig, Yichao Zhen, Michael Wilhelm , Damin Lee, Kwang-Ho Kim, Sanjay Mathur*. New insights into carbon-based and MXene anodes for Na and K-ion storage: A review,J. Energy Chem., 2021,62, 660-691.
[29]Kaiqiang Zhou, Ruoxue Qiu, Yichao Zhen, Zhigao Huang, Sanjay Mathur and Zhensheng Hong*. Vitreum Etching-Assisted Fabrication of Porous Hollow Carbon Architectures for Enhanced Capacitive Sodium and Potassium-Ion Storage. Small, 2021, 17, 2100538.
[30]Yichao Zhen, Rongjian Sa, Kaiqiang Zhou, Lingyi Ding, Yang Chen , Sanjay Mathur*.and Zhensheng Hong*. Breaking the limitation of sodium-ion storage for nanostructured carbon anode by engineering desolvation barrier with neat electrolytes. Nano Energy, 2020 ,74, 104895.
[31]Lan Luo, Kaiqiang Zhou, Ruqian Lian, Yanzhong Lu, Yichao Zhen, Jinshan Wang, Sanjay Mathur and Zhensheng Hong*. Cation-Deficient TiO2(B) Nanowires with Protons Charge Compensation for Regulating Reversible Magnesium Storage. Nano Energy, 2020 ,72, 104716.
[32] Xuechou Zhou, Yanzhong Lu, Yichao Zhen, Zhengzhang Wang, Xinyu Zheng,Mingdeng Wei and Zhensheng Hong*. Facile fabrication of highly porous TiO2 microrods anode with enhanced Al-ion storage for hybrid capacitors. J. Power Sources, 2020, 453, 227857.
[33] Lan Luo, Yanzhong Lu Kaiqiang Zhou, Yi Chao Zhen, Jinxian Huang, Zhigao Huang, Sanjay Mathur and Zhensheng Hong*. Structural evolution from layered Na2Ti3O7 to Na2Ti6O13 nanowires enabling a highly reversible anode for Mg-ion batteries. Nanoscale, 2020, 12, 230.
[34] Meiling Kang, Yurong Ruan, Lan Luoa, Yanzhong Lu, Jinxian Huang, Jian-Min Zhang* and Zhensheng Hong*. An interlayer defect promoting the doping of the phosphate group into TiO2(B) nanowires with unusual structure properties towards ultra-fast and ultra-stable sodium storage. J. Mater. Chem. A, 2019, 7, 16937.
[35] Kaiqiang Zhou, Guigui Xu, Yang Chen, Zhiqing Chen, Jinxian Huang, Yichao Zhen, Zhigao Huang and Zhensheng Hong*. Carbon coated transition metal borates as anode materials for Na-ion batteries. Chem. Eng. J. 2019, 375, 121998.
[36] Zhensheng Hong*, Yichao Zhen, Yurong Ruan, Meiling Kang, Kaiqiang Zhou, Jian-Min Zhang*, Zhigao Huang, and Mingdeng Wei. Rational design and general synthesis of S-doped hard carbon with tunable doping sites toward excellent Na-ion storage performance. Adv. Mater., 2018, 30, 1802035.
[37] Meiling Kang, Yingying Wu, Xin Huang, Kaiqiang Zhou, Zhigao Huang and Zhensheng Hong*. Engineering of a TiO2 Anode toward a Record High Initial Coulombic Efficiency Enabling High-Performance Low-Temperature Na-Ion Hybrid Capacitors. J. Mater. Chem. A, 2018, 6, 22840.
[38] Zhensheng Hong*, Meiling Kang, Xiaohui Chen, Kaiqiang Zhou, Zhigao Huang, and Mingdeng Wei. Synthesis of mesoporous Co2+ doped TiO2 nanodisks derived from metal organic frameworks with improved sodium storage performance. ACS Appl. Mater. Interfaces 2017, 9, 32071-32079.
[39] Kaiqiang Zhou, Meiling Kang, Xiaoqing He, Zhensheng Hong*,Zhigao Huang, and Mingdeng Wei. Multi-functional gum arabic binder for NiFe2O4 nanotubes anodes enabling excellent Li/Na-ion storage performance. J. Mater. Chem. A, 2017, 5, 18138-18147.
[40] Kaiqiang Zhou, Lanfang Lai, Yichao Zhen, Zhensheng Hong*, Juhua Guo, Zhigao Huang. Rational design of Co3O4/Co/carbon nanocages composites from metal organic frameworks as an advanced lithium-ion battery anode. Chem. Eng. J., 2017,316: 137-145.
[41] Zhensheng Hong*, Jiaxing Hong, Chaobing Xie, Zhigao Huang, Mingdeng Wei*. Hierarchical rutile TiO2 with mesocrystalline structure for Li-ion and Na-ion storage. Electrochim. Acta, 2016, 202,203-208.
[42] Zhensheng Hong*, Kaiqiang Zhou, Junwen Zhang Zhigao Huang and Mingdeng Wei*. Self-Assembled Synthesis of Mesocrystalline TiO2@C-rGO Hybrid Nanostructures for Highly Reversible Sodium Storage. Cryst. Growth Des. 2016, 16, 6605-6612.
[43] Kaiqiang Zhou, Zhensheng Hong*, Chaobing Xie, Hong Dai, Zhigao Huang*. Mesoporous NiCo2O4 nanosheets with enhance sodium ion storage properties. J. Alloys Compd., 2015, 651:24-28.
[44] Zhensheng Hong*, Kaiqiang Zhou, Junwen Zhang, Zhigao Huang and Mingdeng Wei*. Facile synthesis of rutile TiO2 mesocrystals with enhanced sodium storage properties.J. Mater. Chem. A, 2015, 3, 17412-17416.
[45] Zhensheng Hong*, Kaiqiang Zhou, Zhigao Huang and Mingdeng Wei*. Iso-Oriented Anatase TiO2 Mesocages as a High Performance Anode Material for Sodium-Ion Storage. Sci. Rep., 2015,5, 11960.
[46] Zhensheng Hong Mingdeng Wei*. Layered titanate nanostructures and their derivatives as negative electrode materials for lithium-ion batteries. J. Mater. Chem A., 2013, 1, 4403-4414. (Feature article)
[47] Zhensheng Hong, Mingdeng Wei,* Tongbin Lan, Lilong Jiang, Guozhong Cao*. Additive-free synthesis of unique TiO2 mesocrystals with enhanced lithium-ion intercalation properties. Energy Environ. Sci., 2012, 5, 5408-5413.
[48] Zhensheng Hong, Tongbin Lan, Mingdeng Wei,* Guozhong Cao*. Self-assembled nanoporous rutile TiO2 mesocrystals with tunable morphologies for high rate lithium-ion batteries. Nano Energy, 2012, 1, 466-471.
[49] Zhensheng Hong, Xiangzhen Zheng, Xiaokun Ding, Lilong Jiang, Mingdeng Wei*, Kemei Wei. Complex spinel titanate nanowires for a high rate lithium-ion battery. Energy Environ. Sci., 2011, 4, 1886-1891.
[50] Zhensheng Hong, Yuxia Xu, Yubin Liu, Mingdeng Wei*. Unique ordered TiO2 superstructures with tunable morphology and crystalline phase for improved lithium storage properties. Chem. Eur. J., 2012, 18, 10753-10760.
[51] Zhensheng Hong, Mingdeng Wei*, Qixin Deng, Xiaokun Ding, Lilong Jiang, Kemei Wei. A new anode material made of Zn2Ti3O8 nanowires: synthesis and electrochemical properties. Chem. Commun., 2010, 46, 740-742.
[52] Zhensheng Hong, Mingdeng Wei*, Xiaokun Ding, Lilong Jiang, Kemei Wei. Li2ZnTi3O8 nanorods: A new anode material for lithium-ion battery. Electrochem. Commun. 2010, 12, 720-723.
主持科研项目:
多场耦合高效制备亲钠金属单原子及其调控金属钠负极沉积性能与机制研究(国家基金面上项目,52374302), 50万,2024/01-2027/12。
异质原子掺杂调控硬碳层间距的理性设计、熔盐法合成及其储钠性能研究(国家基金面上项目, 51874099),61万,2019/01-2022/12。
高性能多孔TiO2基介观晶体钠离子电池负极材料的研究(国家基金青年项目, 51502038),21万,2016/01-2018/12。
2024年福建省“雏鹰计划”青年拔尖人才(200万元),2024-2029。
钛氧化物薄膜电极的表界面调控与储钠机制研究(福建省杰出青年基金项目,2018J06012),25万,2018/04-2021/04。
三维TiO2基复合钠金属负极的限域沉积及其界面电化学调控(福建省基金重点项目,2021J02031),2021/04-2024/04。
一种利用放电等离子体闪烧制备硬碳材料的方法及应用(成果转化,CG-046),100万,2022-2023。
福建省高校杰出青年科研人才培育计划(教育厅杰青,K2-1008),8万,2017/06-2020/06。
钛氧化物介晶材料的微结构调控及其储锂特性研究(福建省基金面上项目,2015J01042),2015/04-2018/04。
可持续制造钠离子电池硬碳负极材料(碳中和开放基金项目,TZH2022-06),25万,2022-2025。
一种多孔无定形多孔二氧化钛基钠离子电池及其制备方法(成果转化,DG-876),3万,2024。
一种适用于锂锰电池大倍率高压段放电的高活性二氧化锰材料研究,(横向项目,DH-1804),3万,2021/07-2022/12。
代表性发明专利:
[1] 洪振生,真义超。一种利用放电等离子体闪烧制备硬碳材料的方法及应用。专利号:ZL202110385531.7。(已转让)
[2] 洪振生,吴映映,康美玲。一种多孔无定型二氧化钛基钠离子电池及其制备方法。专利号:ZL201710877801.X。(已转让)
[3]洪振生,陈扬,杜启焱等。一种利用酵母发酵制备淀粉基生物质硬碳的方法及其应用。专利号:ZL2022 10394832.0。
[4] 洪振生,黄志高。蓝色磷酸根掺杂二氧化钛(B)纳米线及其制备方法和应用。专利号:ZL201910191343.3。
[5] 洪振生,宋紫晴, 刘昊天, 张娜。一种重构硬碳结构与提升其无序度的方法及超长循环寿命的钠
离子电池。专利号:ZL 202410778500.1。
[6] 梁包龙, 洪振生(负责人), 吕义伟, 李冰冰, 茅立原。一种高压、高赝电容占比的P2型层状正极材料及其固态钠电池。专利号:ZL 202411234454.5 。
[7] 洪振生,黄欣,康美玲。层状多孔二氧化钛纳米片基钠离子混合电容器的制备方法。专利号:ZL201810428034.9。
[8] 洪振生,黄欣,康美玲,黄锦贤。一种磷酸钒钠-碳-石墨烯纳米复合材料的原位合成及其应用。专利号:ZL201910058828.5。
[9] 洪振生,周凯强,真义超,黄志高。一种通过Fe2O3相变合成的Fe3O4空心纳米粒子的制备方法及其应用。专利号:ZL 201610593930.1。
[10] 洪振生,真义超,周凯强,赖兰芳。一种聚噻吩包覆的氧化铁中空纳米棒及其制备方法与应用。专利号:ZL 201610544687.4。
[11]洪振生,赖兰芳,周凯强。一种CoS@碳纳米笼及其制备方法和应用。专利号:ZL201710045901.6
[12]洪振生,真义超。熔盐法制备硫掺杂硬碳纳米片及其在钠离子电池中的应用。专利号:ZL201710045901.6。
◆德国资深洪堡学者奖;
◆福建省优秀博士论文指导教师;
◆第十四届福建省自然科学优秀论文一等奖(第一);
◆第十一届福建省自然科学优秀论文一等奖(第一);
◆指导学生荣获首届“宁德时代杯”新能源创新大赛全国银奖、2次福建省大学生创新创业大赛银奖;
◆第七届“中国青少年科技创新奖”(全国共100人,本届福建省唯一获奖研究生,福大首次获奖);
联系邮箱:zshong@fjnu.edu.cn; winter0514@163.com
联系电话:18046053619
