代表性论文
[1] Shao-Wen Xu, Wei Liu, Xu Zhu, Zhuozheng Hong, Lisheng Qian, Chen Cheng, Kai Chen, Liang Zhang, Chuansheng Ma, Mengting Liu, Le Shi*, Yao Xiao*, Shi-Xue Dou, Yonghong Cheng, Peng-Fei Wang*. Potential-dependent interfacial specific adsorption accelerates charge transfer in sodium-ion batteries. Nat. Commun., 2026, Accepted.
[2] Xin-Bei Jia, Qian-Qian Peng, Yi-Feng Liu, Dian-Cheng Chen, Jingqiang Wang, Jia-Yang Li, Yan-Fang Zhu*, Neng-Hua Xu, Ling-Yi Kong, Han-Xiao Liu, Guang-Yu Zhang, Zhuang-Chun Jian, Chen Cheng, Hang-Hang Dong, Liang Zhang, Yang Sun, Shuang-Qiang Chen*, Xiao-Dong Guo*, ShixueDou, Yao Xiao*. Design principles of practical industrial-scale layered oxide cathodes with air/waterstability for sustainable sodium-ion batteries. Nat. Commun.2025, 16, 10477.
[3] Yong Zhang, Feifei Chen, Xinyi Yang, Yiran Guo, Xinghua Zhang, Hong Dong, Weihua Wang, Feng Lu, Zunming Lu, Hui Liu, Hui Liu, Yao Xiao*, Yahui Cheng. Electronic metal-support interaction modulates Cu electronic structures for CO2 electroreduction to desired products. Nat. Commun. 2025, 16, 1956
[4] Lei Ran, Bolei Shen, Liang Yue, Haiyan Hu, Yuhao Xiang, Zhenfeng Jiang, Zhaohui Li, Yuchen Duan, Yanan Zhao, Yong Zheng, Maowen Xu*, Yao Xiao*, and Yubin Niu*. Accelerating electrochemical kinetics in Na4Fe3(PO4)2P2O7cathodes through oxygen vacancy modulation for wide-temperature ah-level sodium-ion batteries.Angew. Chem. Int. Ed., 2026, Accepted.
[5] Yao Xiao*, Qing-Qun Sun, Diancheng Chen, Jingqiang Wang*, Junjie Ding, Peng Tan, Yang Sun*, Shilin Zhang, Peng-Fei Wang*, Jianfeng Mao, and Yan-Fang Zhu*. Guideline of dynamic tunnelstructural evolution for durable sodium-lon oxide cathodes. Adv. Mater., 2025, 37, 2504312.
[6] Wang, Lei; Wang, Jiaqing; Lu, Yifei; Fang, Suqiao; Yang, Chao; Wu, Xingqiao; Xiao, Yao*;Wang, Yong; Chou, Shulei*; Chen, Shuangqiang*. A review of Ni-based layered oxide cathode materials for alkali-ion batteries.Chem. Soc. Rev., 2025, 54 (9), 4419-4467.
[7] Yi-Feng Liu, Han-Xiao Liu, Yan-Fang Zhu, Hong-Rui Wang, Jia-Yang Li, Yong-Chun Li, Hai-Yan Hu, Zhen-Guo Wu, Xiao-Dong Guo, Yao Xiao*. Stabilizing Layered Oxide Cathodes Based on Universal Surface Alkali Conversion Chemistry for Rechargeable Secondary Batteries. Adv. Mater., 2025, 37, e2417540.
[8] Qi-Cong Ling, Dian-Cheng Chen, Xu Zhu, Yan-Fang Zhu,* Zhuo-Zheng Hong, Jian Liu,* Qing-Qun Sun, Yu-Bin Niu,* Yang Sun,* Peng-Fei Wang, and Yao Xiao*. Probing local asymmetric site anchored anion based on multifunctional polymer electrolyte for sustainable solid-state sodium-metal battery. Adv. Mater., 2025, e14352.
[9] Tian Zhao, Jilu Zhang, Kai Wang, Yao Xiao*, Qin Wang, Longfei Li, Jochi Tseng, Meng-Cheng Chen, Jian-Jie Ma, Ying-Rui Lu, Ishii Hirofumi, Yu-Cheng Shao, Xiaoxian Zhao, Sung-Fu Hung, Yaqiong Su, Xiaoke Mu, Weibo Hua. Exploring the Mechanism of Surface Cationic Vacancy Induces High Activity of Metastable Lattice Oxygen in Li- and Mn-Rich Cathode Materials. Angew. Chem. Int. Ed. 2025, e202419664.
[10] Lei Wang, Jiaqing Wang, Henghui Chen, Hanghang Dong, Haichao Wang, Yong Wang, Yao Xiao*, Jing Wang*, and Shuangqiang Chen*. Fast screening suitable doping transition metals to Na3V2(PO4)2F3 for sodium-ion batteries with high energy density in wide-temperature range.Adv. Mater., 2025, 37 (29), e2505093.
[11] Ling-Yi Kong, Zhi-QiLi, Han-Xiao Liu, Xue-Yan Li, Yan-Fang Zhu*, Jia-Yang Li, Peng Tan, Mei Yang*, Jian-Feng Mao*, Wei Kong Pang, and Yao Xiao*. High energy density heterostructured sodium layered oxide cathodes enabled by mechanical-chemical coupling effect. Angew. Chem. Int. Ed., 2025, 64 (51), e202517300.
[12] Zhuang-Chun Jian, Wenjun Shi, Yifeng Liu, Xueyan Li, Jiayang Li,Yan-Fang Zhu*,Xu Zhu, Yongchun Li, Peng Tan, Peng-Fei Wang, Shuangqiang Chen*, Shilin Zhang, Jianfeng Mao, Guangmin Zhou*, h Xiaodong Guo, Jiazhao Wang, Shi-Xue Dou and Yao Xiao*. Accelerating lattice oxygen kinetics of layered oxide cathodes via active facet modulation and robust mechanochemical interface construction for high-energy-density sodium-ion batteries. Energy Environ. Sci. 2025, 18, 7995-8008.
[13] Hai-Yan Hu, Minwen Yang, Diancheng Chen, Neng-Hua Xu, Jia-Yang Li, Yan-Fang Zhu,* Yuan-Bo Wu, Hang-Hang Dong, Jiayi Wang, Changjiang Yao, Yaping Yan,* Shuangqiang Chen, Nana Wang,* Wei Kong Pang, Yang Sun, Jia-Zhao Wang, and Yao Xiao*. Spatially selective substitution for structural stabilization of sodium layered oxide cathodes. Angew. Chem. Int. Ed., 2025, 65 (1), e19108.
[14] Chen Cheng, Zengqing Zhuo, Qianjie Niu, Lei Wang, Pan Zeng, Haiyan Hu, Weidong Xu, Zheng Zhou, Jinghua Guo, Yao Xiao*, Tong Chen, Liang Zhang*. medium-entropy regulation enables phase-stable layered oxide cathodes with reversible anionic redox for sodium-ion batteries. Adv. Mater., 2025, e21118.
[15] Kong Ling-Yi, Li, Jia-Yang Liu Han-Xiao, Zhu Yan-Fang*, Wang Jingqiang, Liu Yifeng, Zhang Xin-Yu, Hu Hai-Yan, Dong Hanghang, Jian Zhuang-Chun, Cheng Chen, Chen Shuangqiang, Zhang Liang, Wang Jia-Zhao, Chou Shulei*, Xiao Yao*. A Universal Interfacial Reconstruction Strategy Based on Converting Residual Alkali for Sodium Layered Oxide Cathodes: Marvelous Air Stability, Reversible Anion Redox, and Practical Full Cell. J. Am. Chem. Soc. 2024, 146, 47, 32317–32332.
[16] Jingqiang Wang, Yan-Fang Zhu*, Yu Su, Jun-Xu Guo, Shuangqiang Chen, Hua-Kun Liu, Shi-Xue Dou, Shu-Lei Chou*, Yao Xiao*. Routes to high performance layered oxide cathodes for sodium-ion batteries. Chem. Soc. Rev. 2024, 53, 4230-4301.
[17] Mengke Zhang, Lang Qiu*, Weibo Hua, Yang Song, Yuting Deng, Zhenguo Wu, Yanfang Zhu, Benhe Zhong, Shulei Chou, Shixue Dou, Yao Xiao*, Xiaodong Guo*. Formulating Local Environment of Oxygen Mitigates Voltage Hysteresis in Li‐Rich Materials. Adv. Mater. 2024, 36, 2311814.
[18] Xin-Bei Jia, Jingqiang Wang, Yi-Feng Liu, Yan-Fang Zhu*, Jia-Yang Li, Yan-Jiang Li, Shu-Lei Chou*, Yao Xiao*. Facilitating Layered Oxide Cathodes Based on Orbital Hybridization for Sodium-Ion Batteries: Marvelous Air Stability, Controllable High Voltage, and Anion Redox Chemistry. Adv. Mater. 2024, 36, 2307938.
[19] Yu Su, Bernt Johannessen, Shilin Zhang*, Ziru Chen, Qinfen Gu, Guanjie Li, Hong Yan, Jia-Yang Li, Hai-Yan Hu, Yan-Fang Zhu, Sailong Xu*, Huakun Liu, Shixue Dou, Yao Xiao*. Soft-Rigid Heterostructures with Functional Cation Vacancies for Fast-Charging and High-Capacity Sodium Storage.Adv. Mater. 2023, 35, 2305149.
[20] Yao Xiao, Hong-Rui Wang, Hai-Yan Hu, Yan-Fang Zhu*, Shi Li, Jia-Yang Li, Xiong-Wei Wu, Shu-Lei Chou*. Formulating High-Rate and Long-Cycle Heterostructured Layered Oxide Cathodes by Local Chemistry and Orbital Hybridization Modulation for Sodium-ion Batteries. Adv. Mater. 2022, 34, 2202695.
奖励荣誉
2024年Journal of Materials Chemistry A新锐科学家
2024年Science China Chemistry新锐科学家
2024年Chemical Communications新锐科学家
2024年世界青年科学家峰会最佳杰出贡献奖
2023年Carbon Energy 期刊优秀青年编委(中科院一区TOP 期刊)
四川大学化学工程学院杰出校友
四川省优秀毕业博士研究生
四川大学优秀学术之星
会议
邀请报告:《中国国际钠离子电池前沿技术与产业发展论坛》(温州)
邀请报告:《第21届全国固态离子学会议》(南京)
邀请报告:《钠离子电池先进技术发展大会》(宁波)
邀请报告:《先进材料及量子科学研讨会》(宁波)
邀请报告:《15届原子尺度表面、界面和纳米结构国际会议》(苏州)
邀请报告:《中国材料大会2024暨第二届世界材料大会》(广州)
邀请报告:《中国化学会2024第二届电化学能量转换研讨会》(长春)
邀请报告:《中国国际固态电池技术产业化发展论坛》(江苏)
邀请报告:《2024第九届超级电容器及电池关键材料学术会议》(济南)
邀请报告:《第14届无机非金属材料专题研讨会暨无机非金属材料学科青年学者论坛》(武汉)
邀请报告:《2024纳米材料与器件创新发展大会》(温州)
邀请报告:《2024世界青年科学家峰会——新能源技术论坛》(温州)
邀请报告:《第八届中国(国际)能源材料化学研讨会》(天津)
学生培养
【博士后】
苏宇博士(入职温州大学)
1.以一作或通讯作者发表论文: [1] Soft–Rigid Heterostructures with Functional Cation Vacancies for Fast-Charging and High-Capacity Sodium Storage. Adv. Mater. 2023, 35, 2305149.(第一作者) [2] Sodium Layered/Tunnel Intergrowth Oxide Cathodes: Formation Process, Interlocking Chemistry, and Electrochemical Performance, ACS Appl. Mater. Interfaces 2023, 15, 38, 44839.(第一作者) [3] A dual-confinement strategy based on encapsulated Ni-CoS2 in CNTs with few-layer MoS2 scaffolded in rGO for boosting sodium storage via rapid electron/ion transports, Energy Storage Mater. 2024, 71, 103638.(第一作者) [4] Solid-State Synthesis of Low-Cost and High-Energy-Density Sodium Layered-Tunnel Oxide Cathodes: Dynamic Structural Evolution, Na+/Vacancy Disordering, and Prominent Moisture Stability, Nano Energy 2024, 125, 109528.(通讯作者) [5] Constructing Layered/Tunnel Interlocking Oxide Cathodes for Sodium-Ion Batteries Based on Breaking Mn3+/Mn4+ Equilibrium in Na0.44MnO2 Via Trace Mo Doping. Compos. Part B Eng. 2024, 284, 111664.(通讯作者) [6] Promoting Layered Oxide Cathodes Based on Structural Reconstruction for Sodium-Ion Batteries: Reversible Phase Transition, Stable Interface Regulation, and Multifunctional Intergrowth Structure,Advanced Functional Materials, DOI:10.1002/adfm.202414130.(通讯作者) [7] Realizing reversible anionic redox based on a Na–O–Li configuration for Na-layered oxide cathodes with solid-solution reaction. Chemical Communications, 2025,61, 6502-6505.(通讯作者)
2.主持项目: [1] 温州市基础性公益科研项目。 [2] 浙江省自然科学基金/青年基金项目 [3] 国家自然科学青年科学基金项目(C类) 3.参与项目: [1] 温州市重大科技创新攻关项目 |
王静强博士(入职内蒙古大学) 1.以一作或通讯作者发表论文:
[1] Routes to high-performance layered oxide cathodes for sodium-ion batteries, Chem. Soc. Rev., 2024, 53(8), 4230-4301.(第一作者) [2] Constructing Layered/Tunnel Interlocking Oxide Cathodes for Sodium-Ion Batteries Based on Breaking Mn3+/Mn4+ Equilibrium in Na0.44MnO2 Via Trace Mo Doping. Compos. Part B Eng. 2024, 284, 111664.(第一作者) [3] Nickel Nanoparticles Protruding from Molybdenum Carbide Micropillars with Carbon Layer-Protected Biphasic 0D/1D Heterostructures for Efficient Water Splitting, ACS Appl. Mater. Interfaces, 2024, 16(2), 2330-2340.(第一作者) [4] Expediting Layered Oxide Cathodes Based on Electronic Structure Engineering for Sodium-Ion Batteries: Reversible Phase Transformation, Abnormal Structural Regulation, and Stable Anionic Redox. Nano Energy 2024, 128, 109905. (通讯作者) [5] Cation migration in layered oxide cathodes for sodium-ion batteries: fundamental failure mechanisms and practical modulation strategies, Chem. Sci., 2024, 15(47), 19698-19728.(通讯作者) [6] A universal strategy for bridging Prussian blue analogues and sodium layered oxide cathodes: direct fast conversion, dynamic structural evolution, and sodium storage mechanisms. Chem Sci. doi:10.1039/d5sc01550b.(通讯作者) [7] Synergistic Dual-Pinning Engineering Enables Stable Mn-Based Layered Oxide Cathodes for High-Performance Sodium-Ion Batteries, ACS Nano, 2025, 19(35), 31901-31914.(第一作者) [8] Guideline of Dynamic Tunnel Structural Evolution for Durable Sodium-Ion Oxide Cathodes, Adv. Mater., 2025, 37(30), 2504312.(通讯作者) 2.主持项目:
[1] 内蒙古自然科学基金青年基金。 [2] 第75批博士后面上基金。 |
李宏伟博士 1.学生荣誉: 2021年一等奖学金。 2.专利情况: [1] 一种基于普鲁士蓝类似物超快制备钠离子电池层状氧化物正极材料的普适方法及应用。 [2] 一种废旧钠离子电池正极材料回收再利用的工艺方法。 3.以一作或通讯作者发表论文:
[1] An Intrinsic Stable Layered Oxide Cathode for Practical Sodium‐Ion Battery: Solid Solution Reaction, Near‐Zero‐Strain and Marvelous Water Stability. Small , 2023, 20 (11). 2306690.(第一作者) [2] Insights into layered–tunnel dynamic structural evolution based on local coordination chemistry regulation for high‐energy‐density and long‐cycle‐life sodium‐ion oxide cathodes. InfoMat 2023. e12475.(第一作者) [3] Modulating vacancies in nonstoichiometric oxides by annealing polarized nanoporous NiCoMn as thick pseudocapacitive electrode. Electrochim. Acta 2021, 368. 137628.(第一作者) [4] Promoting Layered Oxide Cathodes Based on Structural Reconstruction for Sodium-Ion Batteries: Reversible Phase Transition, Stable Interface Regulation, and Multifunctional Intergrowth Structure,Advanced Functional Materials, DOI:10.1002/adfm.202414130(通讯作者) [5] A universal strategy for bridging Prussian blue analogues and sodium layered oxide cathodes: direct fast conversion, dynamic structural evolution, and sodium storage mechanisms. Chem Sci. doi:10.1039/d5sc01550b (第一作者) |
李彦江博士
以一作或通讯作者发表论文:
[1] Detecting dynamic structural evolution based on in-situ high-energy X-ray diffraction technology for sodium layered oxide cathodes. Chinese Chemical Letters, 2024, 35, 110389.(第一作者) [2] Phase Evolutions of Sodium Layered Oxide Cathodes During Thermal Fluctuations. Chemical Communications, 2025, 61, 1589-1604.. (通讯作者) [3] Jahn-Teller Effect in Sodium Layered Oxide Cathodes: Inducement Mechanisms, Mitigation Strategies, and Rational Utilizations. Advanced Functional Materials, 2025, 2504096.(第一作者) [4] Interfacial Modulation Engineering for Sodium Layered Oxide Cathode: Air Stability, Ion-Transfer Kinetics, and Phase Evolution. Science China Chemistry. DOI:10.1007/s11426-024-2725-6.(通讯作者) [5] Entropy-Driven Electrolytes for Sodium-Ion Batteries: From Liquid to Solid-State Systems. Advanced Functional Materials, 2025, 2520788.(通讯作者) [6] Lattice-coherent interface-reinforced sodium layered oxide cathodes. Chemical Science, 2025, 16, 22852-22869.(通讯作者) [7] Non-metal doping engineering in sodium layered oxide cathodes. Energy Storage Materials, 2026, 104876.(通讯作者) |
【博士-博四】
胡海燕
1.学生荣誉: 2025年国家公派出国留学资格(国家留学基金委,CSC资助),2026届温州大学杏吧视频
研究生“浙江省优秀毕业生”(省级),2024年国家奖学金,2024年研究生“学术新锐奖”,2024年浙江省“挑战杯”大学生创业计划竞赛银奖,2024年温州大学杏吧视频
学术创新奖,2024年 “十佳大学生”, 2024年 “学术宣传之星”,2023年国家奖学金,2023年优秀学生党员,2023年度“青春温大”榜样人物,2023年温州市大学生创新创业典型人物,2023年浙江省国际“互联网+”大学生创新创业大赛银奖。
2.专利情况:
[1] 一种基于局域尖晶石结构界面互锁的方法及应用于钠离子电池化物正极材料。 3.以一作或通讯作者发表论文: [1] A Universal Strategy Based on Bridging Microstructure Engineering and Local Electronic Structure Manipulation for HighPerformance Sodium Layered Oxide Cathodes. ACS Nano, 2023, 17, 15871–15882.(第一作者) [2] Developing an Abnormal High-Na-Content P2-Type Layered Oxide Cathode with Near-Zero-Strain for High-Performance Sodium-Ion Battery. Chemical Science, 2024, 15, 5192-5200.(第一作者) [3] Surface Lattice-Matched Engineering Based on In Situ Spinel Interfacial Reconstruction for Stable Heterostructured Sodium Layered Oxide Cathodes. Advanced Functional Materials, 2023, 33, 2213215.(第一作者) [4] Boosting Sodium Layered Oxide Cathodes Based on Electron Structural Modulation: Reversible Phase Transformation, Dynamic Structural Evolution, and Stable Anionic Redox. Nano Energy, 2024, 128, 109905.(第一作者) [5] Insights into dynamic structural evolution and its sodium storage mechanisms of P2/P3 composite cathode materials for sodiumion batteries. Chemical Communications, 2024,60, 6496-6499.(第一作者) [6] Periodic law-guided design of highly stable O3type layered oxide cathodes for practical sodiumion batteries, Chemical Science, 2025, 2025, 16, 3928-3937.(通讯作者) [7] Realizing reversible anionic redox based on a Na–O–Li configuration for Na-layered oxide cathodes with solid-solution reaction. Chemical Communications, 2025,61, 6502-6505.(第一作者) [8] Insights into dynamic structural evolution and its sodium storage mechanisms of P2/P3 composite cathode materials for sodiumion batteries. Chemical Communications, 2024,60, 6496-6499.(第一作者) [9] A Universal Direct Upcycling Route Based on Framework-to-Layered Structural Conversion for Sustainable Sodium Oxide Cathodes. Energy Storage Materials, 2026, 84, 104845.(第一作者) [10] Synthetic Control Guided by Growth Mechanism Insights Enables Tailored Precursors for High-Nickel Layered Oxide Cathodes. Chemical Science, 2025, 16, 15714-15722.(第一作者) [11] Strain Engineering by Local Chemistry Manipulation of Triphase Heterostructured Oxide Cathodes to Facilitate Phase Transitions for High-Performance Sodium-Ion Batteries. Advanced Energy Materials, 2022, 12, 2201511.(第一作者) 4.主持项目:
[1] 基于多离子协同效应构筑高性能钠离子电池层状氧化物正极材料的微纳结构调控研究(温州大学博士研究生创新基金项目,3162023001001),2万元,2023.3-2024.12,在研。 |
李佳阳 以一作或通讯作者发表论文: [1] An Intrinsic Stable Layered Oxide Cathode for Practical Sodium‐Ion Battery: Solid Solution Reaction, Near‐Zero‐Strain and Marvelous Water Stability. Small 2023, 20 (11). 2306690.(第一作者) [2] Surface Lattice-Matched Engineering Based on In Situ Spinel Interfacial Reconstruction for Stable Heterostructured Sodium Layered Oxide Cathodes. Advanced Functional Materials, 2023, 33, 2213215. (第一作者) [3] Interfacial Spinel Local Interlocking Strategy Toward Structural Integrity in P3 Oxide Cathodes. ACS Nano 2024, 18 (20), 12945-12956.(第一作者) [4] Electrochemically captured Zintl cluster-induced bismuthene for sodium-ion storage. Chem. Commun. 2021, 57 (19), 2396-2399.(第一作者) [5] An Intrinsic Stable Layered Oxide Cathode for Practical Sodium‐Ion Battery: Solid Solution Reaction, Near‐Zero‐Strain and Marvelous Water Stability. Small 2023, 20 (11). 2306690.(第一作者) [6] Developing an abnormal high-Na-content P2-type layered oxide cathode with near-zero-strain for high-performance sodium-ion batteries. Chem. Sci. 2024, 15 (14), 5192-5200.(第一作者) [7] Phase Transition Behavior During Sintering Process of Li-Rich Materials. Adv. Energy Mater. 2025, 2406031(通讯作者) [8] Solid Solution Reaction, Near‐Zero‐Strain and Marvelous Water Stability. Small 2023, 20 (11). 2306690. (第一作者) |
【博士-博三】
洪卓政 以一作或通讯作者发表论文: [1] Formulating cathode materials based on high-entropy strategies for sodium-ion batteries. Chem. Sci., 2025, 16, 17058-17085.(第一作者) |
【博士-博二】
刘益峰
以一作或通讯作者发表论文: [1] Layered oxide cathodes for sodium-ion batteries: From air stability, interface chemistry to phase transition. InfoMat, 2023, 5(6), 2567-3165.(第一作者) [2] An air-stable single-crystal layered oxide cathode based on multifunctional structural modulation for high-energy-density sodium-ion batteries . Science China Chemistry, 2024, 67, 4242–4250.(第一作者) [3] Stabilizing Layered Oxide Cathodes Based on Universal Surface Alkali Conversion Chemistry for Rechargeable Secondary Batteries. Adv. Mater., 2025, DOI: 110.1002/adma.202417540.(第一作者) |
钱宇丹 1.学生荣誉: 2023年温州大学优秀毕业生,2022年一等奖学金,2022年优秀学生干部。 2.专利情况:
[1] 一种基于多位错晶面调控普鲁士蓝与隧道氧化物复合材料的普适方法及其在钠离子电池的应用。 [2] 一种快速检测一氧化碳和乙烯的荧光检测仪的制备方法。 [3] 一种负载单原子Ni的氮掺杂缺陷碳球材料及其在锂硫电池中的应用。 3.以一作或通讯作者发表论文: [1] Boosting the Energy Density of Bowl-like MnO2@C through Lithium-intercalation in a High-voltage Asymmetric Supercapacitor with “Water-in-salt” Electrolyte. Small, 2024, 2310027.(第一作者) [2] Controllable and Scale-Up Synthesis of Nickel-Cobalt Boride@Borate/RGO Nanoflakes via Reactive Impingement Mixing: A High-Performance Supercapacitor Electrode and Electrocatalyst. Frontiers in Chemistry, 2022, 10, 874675.(第一作者) [3] Challenges and Strategies toward Manganese Hexacyanoferrate for High-Performance Sodium-Ion Batteries. Advanced Functional Materials, 2024, 2404938.(第一作者) 4.主持项目: [1] MnO2/中空介孔碳复合材料的制备及在高比能超级电容器中的应用研究。 |
【硕士】
贾鑫贝(阿德莱德大学博士录取) 1.学生荣誉: 2025届浙江省优秀毕业生,2024年国家奖学金,2024年研究生学术创新“学军奖学金”,2024年浙江省挑战杯银奖,2023年优秀学生党员,2023年浙江省国际“互联网+”大学生创新创业大赛银奖,2022年研究生二等奖学金,2023年研究生二等奖学金。 2.专利情况: [1] 一种调控钠离子电池层状氧化物正极材料结构转变与空气稳定性的方法及应用。 3.以一作或通讯作者发表论文: [1] Facilitating Layered Oxide Cathodes Based on Orbital Hybridization for Sodium-Ion Batteries: Marvelous Air Stability, Controllable High Voltage, and Anion Redox Chemistry.Adv. Mater. 2023,36,2307938.(第一作者) [2] Design principles of practical industrial-scale layered oxide cathodes with air/water stability for sustainable sodium-ion batteries. Nat Commun 16, 10477 (2025).
4.主持项目: [1] 温州大学硕士研究生创新基金项目。 5.参与项目: [1] 温州大学博士创新基金项目。 |
简庄春(东南大学博士录取) 1.学生荣誉: 2025年浙江省优秀毕业生,2025年温州大学专业学位研究生优秀实践成果获得者,2024年硕士研究生国家奖学金,2024年研究生一等奖学金,2024年研究生学术创新奖,2024年浙江省国际“互联网+”创新创业大赛银奖,2024年浙江省挑战杯银奖,2024年研究生学术创新“学军奖学金”,2023年温州大学新湖杯创新创业大赛金奖。
2.专利情况: [1] 一种基于弹簧效应策略调控晶格氧活性的普适方法及其在高能量密度钠离子电池的应用。 3.以一作或通讯作者发表论文: [1] Solid-state synthesis of low-cost and high-energy-density sodium layered-tunnel oxide cathodes: Dynamic structural evolution, Na+/vacancy disordering, and prominent moisture stability. Nano Energy, 2024, 125, 109528.(第一作者) [2] Cation migration of layered oxide cathodes for sodium-ion batteries: Fundamental failure mechanisms and practical modulation strategies.Chem. Sci., 2024, 15, 19698-19728.(第一作者) [3] Low-cost Mn-based P2/O3 heterostructured layered oxide cathodes based on orbital-lattice synergistic modulation strategy for sodium-ion batteries. Sci. China Mater., 2025, 68(10): 3685-3694.(第一作者) [4] Accelerating lattice oxygen kinetics of layered oxide cathodes via active facet modulation and robust mechanochemical interface construction for high-energy-density sodium-ion batteries. Energy Environ. Sci., 2025, 18, 7995.(第一作者)
4.参与项目: [1] 温州大学硕士研究生创新基金项目。 |
孔令益(四川大学博士录取) 1.学生荣誉: 2025年浙江省优秀毕业生,2024年温州大学国家奖学金,2024年浙江省挑战杯银奖,2024研究生二等奖学金,2024年温州大学优秀学生党员,2023年研究生一等奖学金,2023年优秀学生党员,2022年研究生二等奖学金。 2.专利情况:
[1] 一种隧道功能结构提升层状氧化物正极材料稳定性的普适方法及在钠离子电池的应用。 [2] 一种基于多位错晶面调控普鲁士蓝与隧道氧化物复合材料的普适方法及其在钠离子电池的应用。 3.以一作或通讯作者发表论文: [1] Layered oxide cathodes for sodium-ion batteries: microstructure design, local chemistry and structural unit. Sci. China Chem. 2024, 67 (1), 191-213(第一作者) [2] Reviving Sodium Tunnel Oxide Cathodes Based on Structural Modulation and Sodium Compensation Strategy Toward Practical Sodium-Ion Cylindrical Battery. Adv. Mater., 2024, 36, 2407994.(第一作者) [3] A Universal Interfacial Reconstruction Strategy Based on Converting Residual Alkali for Sodium Layered Oxide Cathodes: Marvelous Air Stability, Reversible Anion Redox, and Practical Full Cell. J. Am. Chem. Soc., 2024, 146, 32317–32332.(第一作者) [4] Multifunctional Tunnel Structural Interfacial Modulation Promises Fast-Charge and Long-Life Na-Layered Oxides. ACS Energy Letters, 2858-2867. doi:10.1021/acsenergylett.5c01161.(第一作者) [5] High Energy Density Heterostructured Sodium Layered Oxide Cathodes Enabled by Mechanical-Chemical Coupling Effect, Angew. Chem. Int. Ed. 2025, 64, e202517300.(第一作者)
4.主持项目: [1] 温州大学硕士研究生创新基金项目。 5.参与项目: [1] 温州大学博士创新基金项目。 |
刘含笑(四川大学博士录取) 1.学生荣誉: 2025年温州大学鸿鹄特别奖,2023年研究生三等奖学金,2023年浙江省第十四届挑战杯银奖,2023年优秀学生党员,2022年研究生二等奖学金。 2.专利情况:
[1] 一种改善隧道型氧化物正极材料表面碱性与耐水性的方法及应用于超高循环稳定性的钠离子电池。 [2] 原位界面残碱转化稳定二次电池正极材料的制备方法。 3.以一作或通讯作者发表论文: [1] Layered oxide cathodes for sodium-ion batteries: microstructure design, local chemistry and structural unit. Sci. China Chem. 2024, 67 (1), 191-213(第一作者)
[2] Reviving sodium tunnel oxide cathodes based on structural modulation and sodium compensation strategy towards practical sodium-ion cylindrical battery. Adv. Mater., 2024, 36, 2407994.(第一作者) [3] Stabilizing Layered Oxide Cathodes Based on Universal Surface Alkali Conversion Chemistry for Rechargeable Secondary Batteries. Adv. Mater., 2025, DOI: 110.1002/adma.202417540. (第一作者)
4.主持项目: [1] 温州大学硕士研究生创新基金项目。 5.参与项目: [1] 温州大学博士创新基金项目。 |
【硕士-研三】
张欣榆
1.学生荣誉: 2026年研究生国家奖学金,2025年研究生一等奖学金,2024年研究生一等奖学金,2024年校级优秀共产党员,2023年研究生二等奖学金,2023年浙江省挑战杯银奖。
2.专利情况:
[1] 基于原位外延生长制备快充长寿命钠电氧化物正极的方法。 3.以一作或通讯作者发表论文: [1] Boosting Sodium Layered Oxide Cathodes Based on Electron Structural Modulation: Reversible Phase Transformation, Dynamic Structural Evolution, and Stable Anionic Redox. Nano Energy, 2024, 128, 109905.(第一作者) [2] Multifunctional Tunnel Structural Interfacial Modulation Promises Fast-Charge and Long-Life Na-Layered Oxides. ACS Energy Letters, 2858-2867. 李之琦 1.学生荣誉: 2024年研究生一等奖学金,2024年温州大学生命科学研究院第六届“生长因子奖学金”,2023年研究生一等奖学金,2023年浙江省挑战杯银奖。 2.以一作或通讯作者发表论文: [1] Kinetically controlled synthesis of low-strain disordered micro–nano high voltage spinel cathodes with exposed {111} facets, Chem. Sci., 2024,15, 11302-11310.(第一作者) 刘欣雨 1.学生荣誉: 2025年学业一等奖学金,2024年研究生二等奖学金,2024年校级优秀共产党员,2023年研究生二等奖学金,2023年浙江省挑战杯银奖。
2.专利情况:
[1] 一种无镍无钴三相共生钠电锰基氧化物的制备方法及应用。 [2] 一种异质相干双超晶格的钠电层状氧化物正极及制备方法。
3.以一作或通讯作者发表论文: [1] Promoting Layered Oxide Cathodes Based on Structural Reconstruction for Sodium-Ion Batteries: Reversible Phase Transition, Stable Interface Regulation, and Multifunctional Intergrowth Structure .Adv. Funct. Mater. 2025, 35, 2414130.(第一作者) 郭浚旭 1.学生荣誉: 2025研究生学业一等奖学金,2024年研究生三等奖学金,2023年研究生二等奖学金。
2.以一作或通讯作者发表论文: [1] Cation migration of layered oxide cathodes for sodium-ion batteries: fundamental failure mechanisms and practical modulation strategies.Chemical Science, 2024, 15, 19698-19728.(第一作者) [2] Low-cost Mn-based P2/O3 heterostructured layered oxide cathodes based on orbital-lattice synergistic modulation strategy for sodium-ion batteries. Sci. China Mater. 2025,68, 3685–3694 .(第一作者)
凌奇聪 1.学生荣誉: 2025年研究生一等奖学金,2025年国家奖学金,2025年浙江省优秀毕业生,2024年研究生三等奖学金,2023年研究生二等奖学金。
2.以一作或通讯作者发表论文: [1] Interfacial Modulation Engineering for Sodium Layered Oxide Cathode: Air Stability, Ion-Transfer Kinetics, and Phase Evolution. Science China Chemistry. DOI:10.1007/s11426-024-2725-6. (第一作者) [2] Probing Local Asymmetric Site Anchored Anion Based on Bio-Derived Nanocellulose Polymer Electrolytes for Sustainable Solid-State Sodium-Metal Batteries. Adv. Mater. 2025, e14352.(第一作者) [3] Lattice-coherent interface-reinforced sodium-layered oxide cathodes.Chem. Sci., 2025,16, 22852-22869. 张广宇 1.学生荣誉: 2025学业二等奖学金,2024年研究生三等奖学金,2023年研究生二等奖学金。 2.以一作或通讯作者发表论文: [1] Realizing reversible anionic redox based on a Na–O–Li configuration for Na-layered oxide cathodes with solid-solution reaction. Chemical Communications, 2025,61, 6502-6505.(第一作者) [2] Entropy-Driven Electrolytes for Sodium-Ion Batteries: From Liquid to Solid-State Systems Advanced Functional Materials. Adv. Funct. Mater. 2025: e20788. 孙青群 1.学生荣誉: 2025年研究生国家奖学金,2025年浙江省优秀毕业生,2025年研究生综合学业一等奖学金,2024年研究生三等奖学金,2023年研究生二等奖学金。 2.以一作或通讯作者发表论文: [1] Guideline of Dynamic Tunnel Structural Evolution for Durable Sodium-Ion Oxide Cathodes. Advanced. Materials.Adv. Mater. 2025, 37, 2504312.
李梦颖 1.学生荣誉: 2025温州大学研究生三等奖学金,2024年研究生三等奖学金,2023年研究生二等奖学金。
2.以一作或通讯作者发表论文: [1] A Universal Direct Upcycling Route Based on Framework-to-Layered Structural Conversion for Sustainable Sodium Oxide Cathodes. Energy Storage Materials, 2026, 84, 104845.(第一作者) |
【硕士-研二】
陈冰冰
学生荣誉: 2025年研究生学业二等奖学金,2024年新生入学一等奖学金
李瑞
学生荣誉: 2025年研究生学业三等奖学金,2024年新生入学一等奖学金 |
【本科生】
张宁宁 1.学生荣誉: 2025年浙江省政府奖学金,2025年温州大学三好学生,2024年浙江省政府奖学金,2024年温州大学三好学生,2024年建行杯浙江省国际大学生创新大赛金奖,2024年第六届浙江省大学生“晶通杯”新材料创新大赛三等奖,2024学优秀共青团员,2023年浙江省政府奖学金,2023年三好学生,2023年浙江省挑战杯银奖,2022年全国大学生数学竞赛三等奖。
2.主持项目: [1] 晴空钠正(国家级大学生创新创业训练计划项目,202410351043X)。 [2] 钠离子电池铁锰基层状氧化物正极材料的空气稳定性与动力学研究。 [3] 23年度普惠型学生科研课题。
文楚姚 学生荣誉: 2024年二等奖学金,2024年优秀学生干部,2024年温州大学三好学生,2024年省政府奖学金,2024年浙江省第六届晶通杯新材料创新大赛三等奖(负责人),2024年温州大学第一届女大学生创新创业大赛三等奖(负责人),2024年温州大学瑞丰杯三等奖。 赵羿(浙江大学硕士录取) 学生荣誉: 2024年浙江省政府奖学金,2024年浙江省建行杯金奖,2024年浙江省挑战杯银奖,2023年浙江省政府奖学金。 苏荪琪 1.学生荣誉: 2025年浙江省政府奖学金,2025年温州大学学习单项奖学金,2025年温州大学第一届女大学生创新创业大赛三等奖,2025年“农行杯”浙江省大学生创新创业大赛省赛银奖负责人,2024年温州大学杏吧视频
工作积极分子,2024年“新湖杯”温州大学大学生创新创业大赛校赛金奖。
2.专利情况:
[1] 一种痕量元素掺杂制备类橄榄球氧化物的工艺方法。
3.以一作或通讯作者发表论文: [1] Lattice-coherent interface-reinforced sodium-layered oxide cathodes.Chem. Sci., 2025,16, 22852-22869.(第一作者) 4.主持项目: [1] 晴空钠正(国家级大学生创新创业训练计划项目)
李睿姿 1.学生荣誉: 2025年温州大学一等奖学金,2025年温州大学三好学生,2025年第一学期温州大学杏吧视频
工作积极分子,2025年第二学期温州大学杏吧视频
工作积极分子,2025年温州大学恒睿杯优秀奖。
2.主持项目: [1] 晴空钠正(国家级大学生创新创业训练计划项目) 冉启琳 学生荣誉: 2025年院优秀共青团员,2025年校级积极工作分子,2025年院星级个人。
陶余涵 学生荣誉: 2025年温州大学三等奖学金,2025年温州大学三好学生,2025年温州大学第一届女大学生创新创业大赛三等奖,2025年“新湖杯” 温州大学国际大学生创新大赛金奖。 |
团队招聘
硕士/博士/博士后招聘要求:
1.获得相应学位的毕业生、通过相应论文答辩的应届毕业生,品学兼优,身心健康。
2.具有较强的科学研究能力、敬业精神和创新实践能力,具有较强的主观能动性及英语写作能力,发表过较好的学术论文。
申报程序:
应聘人请准备所需材料(见下方),发送至邮箱:[email protected],邮件标题请注明“应聘硕士/博士/博士后-单位-姓名”。
1.简历(出生年月、教育背景、工作简历、科研成果、联系方式等);
2.代表性论著或论文以及其他可以证明本人研究能力及水平的相关资料,申请意向的研究方向及未来研究计划等;
3.本人身份证、学历学位、相关荣誉的获奖证书等扫描件材料。
常用链接
师资介绍 
化学系