(69) Zhenxin Huang, Zichun Xiao, Haihan Zhang, Qianyu Zhang*, Jiawu Cui, Jintian Luo, Wei Tang*, Yuping Wu*. Temperature-Robust Solvation Enabled by Solvent Interactions for Low-Temperature Sodium Metal Batteries. J. Am. Chem. Soc. 2025, XXXX, XXX, XXX-XXX. (SCI,影响因子：14.5)

 

(68) Yujia He, Kai Jia*, Zhihong Piao, Zhenjiang Cao, Mengtian Zhang, Pengfei Lia, Zhichao Li, Zhiyuan Jiang, Guorui Yang, Huan Xi, Guangmin Zhou*, Wei Tang*, Zhiguo Qu, R. Vasant Kumar, Shujiang Ding, Kai Xi*. Li⁺ Quasi-Grotthuss Topochemistry Transport Enables Direct Regeneration of Spent Lithium-Ion Battery Cathodes. Angew. Chem. Int. Ed. 2025, e202422610. (SCI,影响因子：16.6)

 

(67) Jiangqi Zhou, Chengyong Shu, Qianyu Zhang^*, Wei Tang^*, Yuping Wu. Tandemly promoting the sulfur redox kinetics through low concentration mixed organodiselenide and organoditelluride in Ah-level high-energy-density Li-S batteries. Science China Materials. 2025, 68, 207-216.(SCI,影响因子：6.8)

 

(66) Zhixu Chen, Chengyong Shu*, Zhuofan Gan, Jingwen Cao, Peixi Qiu, Xiaohui Sun*, Chengwei Deng*, Yuping Wu, Wei Tang*. Research Progress and Perspectives on Anti-Poisoning Hydrogen Oxidation Reaction Electrocatalysts for Hydrogen Fuel Cells. Small 2025, 2411049. (SCI,影响因子：13)

 

(65) Weipeng Li, Haihan Zhang, Liang Xie, Zhiyang Fan, Taifan Yang, Weibo Hua, Kang Yang, Chengyong Shu*, Yongliang Ma, Yuping Wu, Wei Tang*. Advancements in the Realm of Structural Engineering for Sodium-Ion Batteries via Elemental Doping: A Focus on P2-Phase Nickel–Manganese Layered Oxides. Battery Energy 2024, e20240052. (SCI, 影响因子：9.0) .

 

(64) Zhuofan Gan, Chengyong Shu,* Jingwen Cao, Zhixu Chen, Peixi Qiu, Zhongxin Chen,Xiaowei Wang, Yuping Wu, Shirui Wang,* Xiaohua Yang,* and Wei Tang*. P-Doping Modulated RuIr Nanoparticles Anchored on Co/N/C Catalysts with Improved Alkaline Hydrogen Evolution Activity and Stability. Small 2024, 2408887. (SCI,影响因子：13)

 

(63) Zhiyang Fan, Yichen Li, Jiawei Pan, Zhiyou Zhou, Weipeng Li, Taifan Yang, Haihan Zhang, Chengyong Shu*, Weibo Hua, Yuping Wu*, Wei Tang*. Recent Progress and Perspectives on Composite Structural Layered Transition Metal Oxides for Sodium-Ion Batteries. EES Batter., 2025. (Accepted)

 

(62) Ruoshan Jin, Zichun Xiao, Zhanhui Jia, Jiawu Cui, Chengyong Shu*, Yu Bai*, Wei Tang*, Yuping Wu*. Rational Modulating Ionic Transportation via Facile ZIF-L/rGO Lamellar Interlayer toward Dendrite-Free Anode for High-Performance Li-Metal Batteries. Energy Fuels 2024, 38, 21, 21607–21616. (SCI, 影响因子：5.2) 

 

(61) Liang Xie, Jiawu Cui, Yongliang Ma, Weibo Hua, Zhen Wang, Hao Wu, Taifan Yang, Zexun Tang, Xiangwen Gao*, Xiaowei Wang, Wei Tang*, Yuping Wu. Microsphere LiMn_0.6Fe_0.4PO₄/C cathode with unique rod-like secondary architecture for high energy lithium ion batteries. Chem. Eng. J. 2024, 499, 156513.  (SCI, 影响因子：13.3) 

 

(60) Feng Hai,  Xin Gao,  Wenting Chen,  Weicheng Xue,  Mingtao Li*,  Weibo Hua,  Wei Tang*. Electrolyte Additive Therapy Realizes Simultaneous Ni and Mn Redox for Spinel LiNi_0.5Mn_1.5O₄ Cathode at 2.3–4.95 V. Adv. Funct. Mater. 2024, 2414337.  (SCI, 影响因子：19.0) 

 

(59) Haihan Zhang, Leqian Song, Siyuan Lin, Zhenxin Huang, Chengyong Shu*, Yongliang Ma, Zexun Tang*, Xiaowei Wang, Wei Tang*, Yuping Wu*. Ameliorating the sodium storage performance of hard carbon anode through rational modulation of binder. Energy Storage Materials. 2024, 73, 103796.  (SCI, 影响因子：20.4) 

 

(58) Taifan Yang, Zhenxin Huang, Chengyong Shu*, Xiaowei Wang, Zexun Tang*, Wei Tang*, Kai Zhu, Yuping Wu. The Role and Substitution of Cobalt in the Cobalt-Lean/Free Nickel-Based Layered Transition Metal Oxides for Lithium Ion Batteries. Batteries & Supercaps 2024,7, e202400437.  (SCI, 影响因子：5.15) 

 

(57) Siyuan Lin, Haihan Zhang, Chengyong Shu*, Weibo Hua, Xiaowei Wang, Yuxin Zhao*, Jintian Luo, Zexun Tang, Yuping Wu*, Wei Tang*. Research Progress and Perspectives on Pre-sodiation Strategies for Sodium-Ion Batteries. Adv. Funct. Mater. 2024, 34, 2409628. (SCI, 影响因子：19) 

 

(56) Zhen Wang, Jiewen Tan, Zhanhui Jia, Jiawu Cui, Xiaowei Wang*, Chengyong Shu, Xiangwen Gao*, Yuping Wu, Wei Tang*. Deciphering Chemical/Electrochemical Compatibility of Li₃InCl₆ in 5.2 V high-voltage LiCoO₂ All-Solid-State Batteries. ACS Energy Lett. 2024, 9, 9, 4485–4492. (SCI, 影响因子：22) 

 

(55) Chengyong Shu, Peixi Qiu, Zhuofan Gan, Zhixu Chen, Jingwen Cao, Wei Tang*. Phosphorus-Doped Pt–Ir Nanoalloy for the Improved Voltage Reversal Durability Anode in H₂/O₂ Fuel Cells. J. Phys. Chem. C. 2024, 128, 31, 13131–13139 (SCI, 影响因子：3.7) 

 

(54) Zhenxin Huang, Zichun Xiao, Ruoshan Jin, Zhen Li, Chengyong Shu*, Renyi Shi, Xiaowei Wang, Zexun Tang, Wei Tang* and Yuping Wu*. A Comprehensive Review on Liquid Electrolyte Design for Low-Temperature Lithium/Sodium Metal Batteries. Energy Environ. Sci., 2024,17, 5365-5386. (SCI, 影响因子：32.4) 

 

(53) Jiangqi Zhou, Chengyong Shu, Jiawu Cui, Chengxin Peng*, Yong Liu*, Weibo Hua, Laura Simonelli, Yuping Wu, Shi Xue Dou, Wei Tang*. Metal-free two-dimensional phosphorene-based electrocatalyst with covalent P–N heterointerfacial reconstruction for electrolyte-lean lithium–sulfur batteries. Carbon Energy. 2024; 6: e460. (SCI, 影响因子：20.5) 

 

(52) Chengyong Shu*, Jingwen Cao, Zhuofan Gan, Peixi Qiu, Zhixu Chen, Xuanwu Lian, Zhongxin Chen, Chengwei Deng and Wei Tang*. Synergistic Effect between Co Single Atoms and Pt Nanoparticles for Efficient Alkaline Hydrogen Evolution. Materials Futures, 2024, 3, 35101. (SCI, 影响因子：12) 

 

(51) Weibo Hua*,  Jilu Zhang, Suning Wang,  Yi Cheng, Hang Li, Jochi Tseng, Zhonghua Wu, Chong-Heng Shen, Oleksandr Dolotko, Hao Liu, Sung-Fu Hung, Wei Tang*,  Mingtao Li, Michael Knapp, Helmut Ehrenberg, Sylvio Indris, Xiaodong Guo*. Frontispiece: Long-Range Cationic Disordering Induces two Distinct Degradation Pathways in Co-Free Ni-Rich Layered Cathodes. Angew. Chem. Int. Ed. 2025, e202422610. (SCI, 影响因子：16.6) 

 

(50) Chengxin Peng, Feixiang Wang, Qiang Chen, Xiaoli Yan, Chaoxin Wu, Jiarui Zhang, Wei Tang*, Long Chen, Yonggang Wang*, Jianfeng Mao, Shixue Dou, Zaiping Guo*, Proton-Coupled Chemistry Enabled p–n Conjugated Bipolar Organic Electrode for High-Performance Aqueous Symmetric Battery. Adv. Funct. Mater. 2024, 2401001. (SCI, 影响因子：19.0) 

 

(49) Duzhao Han, Jinniu Chen, Weipeng Li, Liang Xie, Zheng Yan, Zexun Tang, Hao Wu, Jiali Peng, Oleksandr Dolotko, Yuxin Zhao*, Weibo Hua*, Yuping Wug, Wei Tang*. The intrinsic mechanism of Co/Mn elemental manipulation in enhancing the cycling stability of single-crystal ultrahigh-Nickel layered cathode. J. Mater. Chem. A, 2024,12, 13724-13732. (SCI, 影响因子：11.9) 

(48) Jiewen Tan, Zhen Wang, Jiawu Cui, Zhanhui Jia, Wensheng Tian, Chao Wu, Chengxin Peng, Chengyong Shu*, Kang Yang, Wei Tang*. Sandwich-type composited solid polymer electrolytes to strengthen the interfacial ionic transportation and bulk conductivity for all-solid-state lithium batteries from room temperature to 120 °C. J. Energy Chem. 2024, 95, 288-295. (SCI, 影响因子：13.1) 

 

(47) Zhanhui Jia, Hao Shen, Jiawei Kou, Tianyi Zhang, Zhen Wang, Wei Tang*, Marca Doeff, Ching-Yu Chiang, Kai Chen*. Solid Electrolyte Bimodal Grain Structures for Improved Cycling Performance. Adv. Mater. 2024, 2309019. (SCI, 影响因子：29.4) 

 

(46) Mingyu Yang, Zhiyang Fan, Jiacheng Liu, Yongliang Ma, Yu Bai, Xiaodong Wang, Haihan Zhang, Feng Hai, Weibo Hua,Yue Ma*, Yuping Wu*, Wei Tang*. Insights into the Facet and Morphological Domination on the Electrochemical Performance of Layered NaNi_1/3Fe_1/3Mn_1/3O₂ for Sodium-Ion Batteries. Energy Fuels. 2024, 38, 3, 2453–2462. (SCI, 影响因子：5.3) 

 

(45) Zhen Wang, Jiewen Tan, Jiawu Cui, Keyu Xie, Yunfei Bai, Zhanhui Jia, Xiangwen Gao,* Yuping Wu, Wei Tang*. A novel asymmetrical multilayered composite electrolyte for high-performance ambient-temperature all-solid-state lithium batteries. J. Mater. Chem. A, 2024,12, 4231-4239. (SCI, 影响因子：11.9) 

 

(44) Duzhao, Han, Jilu, Zhang, Mingyu, Yang, Keyu, Xie, Jiali, Peng, Oleksandr, Dolotko, Cheng, Huang, Yuping, Wu, "Le Shao", Weibo, Hua, Wei, Tang*. Enhancing the long-term cycling stability of Ni-rich cathodes via regulating the length/width ratio of primary particle. Energy Materials. 2024; 4(1): 400001.(SCI, 影响因子：11.8) 

 

(43) Zichun Xiao, Duzhao Han, Yu Fu, Keyu Xie, Wensheng Tian, Chengyong Shu, Kai Xi*, Chengxin Peng, Yuping Wu, Shixue Dou, Wei Tang*, Eliminating concentration polarization with gradient lithiophilic sites towards high performance lithium metal anodes under low N/P ratio, Chem. Eng. J, 2024, 480, 148029. (SCI, 影响因子：13.3) 

 

(42) Haihan Zhang, Mingyu Yang, Zichun Xiao, Keyu Xie, Le Shao, Cheng Huang, Chengyong Shu, Chengxin Peng, Yuping Wu, Wei Tang*, Flexible precursor modulation towards selective heteroatoms doping in hard carbon anode for sodium ion batteries, Energy & Fuels, 2023, 37, 19, 15127–15137. (SCI, 影响因子：5.3). 

(41) Jia Zhou, Wen Yan, Zhuofan Gan, Chengyong Shu, Zhe Zheng, Wei Tang*, Tiantian Wu*, Keyu Xie, and Ming Ma*, Layer-Stacked Zn with Abundant Corners for Selective CO₂ Electroreduction to CO, ACS Applied Energy Materials, 2023 6 (5), 2954-2961. (SCI, 影响因子：6.4)

(40) Qiming Chen, Jiangqi Zhou, Yuntao Zhu, Chao Jin, Jianqin Zhang*, Yuping Wu*, and Wei Tang*, In Situ Transformation of LDH into NiCo₂S₄-NiS₂ Nano-heterostructures on Hollow Carbon Boxes to Promote Sulfur Electrochemistry for High-Performance Lithium–Sulfur Batteries, Energy & Fuels, 2023 37 (6), 4711-4719. (SCI, 影响因子：5.3)

(39) Jiewen Tan, Zhen Wang, Jiawu Cui,Yuhua Chen, Zhanhui Jia, Mingyu Yang,a Naziyila Gemingjiang, Zichun Xiao,  Xiaowei Wang, Wangjiang Gao, Wensheng Tian, Chao Zhang, Wei Tang* and Yuping Wu, PEO composite solid polymer electrolytes with the synergistic effect of cryogenic engineering and trace BP nanosheets for nearly room temperature and 4 V class all-solid-state lithium batteries, Sustainable Energy & Fuels, 2023. 7(3): p. 652-660. (SCI, 影响因子：5.6)

(38) Zichun Xiao, Ya-Nan Zhou, Xiaowei Wang, Jiawu Cui, Mingyu Yang, Chengyong Shu, Duzhao Han, Jiangqi Zhou, Chengxin Peng, Wei Tang*, Yuping Wu, Dual-Layered 3D Composite Skeleton Enables Spatially Ordered Lithium Plating/Stripping for Lithium Metal Batteries with Ultra-Low N/P Ratios, ACS Appl. Energy Mater. 2022, 10.1021/acsaem.2c02636. (SCI, 影响因子：6.959)

(37) Chengyong Shu,Qiang Tan,Chengwei Deng,Wei Du,Zhuofan Gan,Yan Liu,Chao Fan, Hui Jin, Wei Tang*, Xiao-dong Yang*, Xiaohua Yang*, Yuping Wu*, Hierarchically mesoporous carbon spheres coated with a single atomic Fe–N–C layer for balancing activity and mass transfer in fuel cells, Carbon Energy, 2022, 4, 1-11. (SCI, 影响因子：21.556, 封面文章)

(36) Jiangqi Zhou, Wei Tang*, Chengyong Shu, GuoHong Ning, Chengxin Peng, Long Kong, Yong Liu*, Yuping Wu*,Well-defined metal-N₄ sites coordinated defective carbon as efficient electrocatalysts for high performance lithium–sulfur batteries,  Mater. Today Energy, 2022, 30, 101151.(SCI, 影响因子：9.257)

(35) Hao Shen, Kai Chen*, Jiawei Kou, Zhanhui Jia, Nobumichi Tamura, Weibo Hua, Wei Tang*, Helmut Ehrenberg, Marca Doeff*, Spatiotemporal mapping of microscopic strains and defects to reveal Li-dendrite-induced failure in all-solid-state batteries, Mater. Today, 2022, 57, 180. (SCI, 影响因子：31.04)

(34) Chengyong Shu*, Jiangqi Zhou, Zhanhui Jia, Hong Zhang, Zhongxin Liu, Wei Tang*, Xiaofei Sun*, Electrochemical exfoliation of two-dimensional phosphorene sheets and its Energy application, Chem. Eur. J., 2022, 10.1002/chem.202200857. (SCI, 影响因子：5.71)

(33) Duzhao Han, Xiaowei Wang, Ya-Nan Zhou, Jiyong Zhang, Zhongxin Liu, Zichun Xiao, Jiangqi Zhou, Zhen Wang, Jiangfeng Zheng, Zhanhui Jia, Bingbing Tian, Jingying Xie*, Zhaolin Liu*, Wei Tang*, A graphene-coated thermal conductive separator to eliminate the dendrite-induced local hotspots for stable lithium cycling, Adv. Energy Mater., 2022, 2201190. (SCI, 影响因子：29.4)

(32) Ya-Nan Zhou, Zichun Xiao, Duzhao Han, Lianping Yang, Jiyong Zhang, Wei Tang*, Chengyong Shu, Chengxin Peng*, Dezhong Zhou*, Approaching Practically Accessible and Environmentally Adaptive Sodium Metal Batteries with High Loading Cathodes through In Situ Interlock Interface, Adv. Funct. Mater., 2022, 2111314. (SCI, 影响因子：18.808)

(31) Jiangqi Zhou, Tiantian Wu, Yu Pan, Jian Zhu, Xia Chen, Chengxin Peng*, Chengyong Shu, Long Kong, Wei Tang*, Shu-Lei Chou*, Packing Sulfur Species by Phosphorene-Derived Catalytic Interface for Electrolyte-Lean Lithium–Sulfur Batteries, Adv. Funct. Mater., 2021, 10.1002/adfm.202106966. (SCI, 影响因子：18.808)

(30) Chengxin Peng, Zhihong Chen, Hong Zhang, Zhongxin Liu, Jiangfeng Zheng, Jiangqi Zhou, Zhanhui Jia, Quanhai Zhang, Chunyan Lai*, Yuping Wu*, and Wei Tang*, Stress-Tolerant Printed Architectures Toward Stable Cycling of Ultrahigh-Loading Ni-Rich Layered Oxide Cathodes for Wearable Energy Storage Devices, Energy & Fuels, 2022, 36, 9, 5009–5017. (SCI, 影响因子：3.605)

(29) Zhuofan Gan, Chengyong Shu, Chengwei Deng, Wei Du, Bo Huang*, Wei Tang*, Confinement of Pt NPs by hollow-porous-carbon-spheres via pore regulation with promoted activity and durability in the hydrogen evolution reaction, Nanoscale, 2021, 10.1039/D1NR04982H. (SCI, 影响因子：7.790) 

(28) Xiaowei Wang, Yangyuchen Yang, Chen Lai, Runlai Li, Haomin Xu, Darren H. S. Tan, Kun Zhang, Wei Yu, Oeystein Fjeldberg, Ming Lin, Wei Tang*, Ying Shirley Meng*, Kian Ping Loh*, Dense‐stacking porous conjugated polymer as reactive‐type host for high performance lithium sulfur batteries, Angew. Chem. Int. Ed., 2021, 133, 11460. (SCI, 影响因子：15.336)

(27) Quanhai Zhang, Jiangqi Zhou, Zhihong Chen, Chao Xu, Wei Tang*, Guangzhi Yang, Chunyan Lai*, Qunjie Xu, Junhe Yang, Chengxin Peng*, Direct Ink Writing of Moldable Electrochemical Energy Storage Devices: Ongoing Progress, Challenges, and Prospects, Advanced Engineering Materials, 2021, 10.1002/adem.202100068. (影响因子：3.217)

(26) Jiangqi Zhou, Li Jiang, Chengyong Shu, Long Kong, Iqbal Ahmad, Ya‐Nan Zhou, Wei Tang*, Xiaofei Sun*, Yuping Wu* A Universal Strategy For N‐Doped 2D Carbon Nanosheets With Sub‐Nanometer Micropore For High‐Performance Supercapacitor, Energy & Environ. Mater., 2021, 4, 4, 569. (SCI, 影响因子：15.1)

(25) Jiangqi Zhou+, Shilin Zhang+, Ya-Nan Zhou+, Wei Tang*, Junhe Yang ,Chengxin Peng,*, Zaiping Guo ,*Biomass-derived carbon for high-performance supercapacitors: Current status and perspective, Electrochem. Energy Rev. 2021, 4, 219. (SCI, 影响因子：28.905)

(24) Chen Lai, Chengyong Shu, Wei Li, Liu Wang, Xiaowei Wang, Tianran Zhang, Xuesong Yin, Iqbal Ahmad, Mingtao Li, Xiaolu Tian, Pu Yang, Wei Tang*, Naihua Miao*, and Guangyuan Wesley Zheng*, Stabilizing a Lithium Metal Battery by an In Situ Li2S-modified Interfacial Layer via Amorphous-Sulfide Composite Solid Electrolyte, Nano Lett. 2020, 20, 11, 8273-8281. (影响因子：11.238)

(23) Cheng Yang, Chengyong Shu, Zhuofan Gan, Chen Lai, Jijun Ma*, Wei Tang*, and Yuping Wu*, Thiocyanate Ion Ligand-Induced Atomically Dispersed Fe–N–S Tridoped Hollow Catalyst for High-Performance Zinc–Air Rechargeable Batteries, Energy & Fuels, 2020, 34, 9, 11620. （影响因子：3.421）

(22) Zhengang Li, Wenjun Deng, Chang Li, Weijian Wang, Zhuqing Zhou, Yibo Li, Xinran Yuan, Jun Hu, Man Zhang, Jinlin Zhu, Wei Tang*, Xin Wang*, Rui Li*, Uniformizing Electric Field Distribution and Ion Migration during Zinc Plating/Stripping via Binary Polymer Blend Artificial Interphase, J. Mater. Chem. A, 2020, DOI: 10.1039/D0TA05253A. （影响因子：11.307）

(21) Xiangwen Gao , Ya-Nan Zhou(共同一作), Duzhao Han, Jiangqi Zhou, Dezhong Zhou, Wei Tang* and John B. Goodenough* （诺贝尔化学奖获得者）Thermodynamic Understanding of Li-Dendrite Formation, Joule, 2020, DOI: 10.1016/j.joule.2020.06.016. （影响因子：41.248）

(20) Chengyong Shu, Zhuofan Gan, Yuyang Hou, Ting Zhu, Jijun Ma*, Wei Tang*, Yuping Wu*, Tailoring the porous structure of Mono-dispersed hierarchically nitrogen doped carbon spheres for highly efficient oxygen reduction reaction, Energy & Environ. Mater., 2020, 4, 1, 81. (SCI, 影响因子：15.1)

(19) Pu Yang, Xiangwen Gao, Xiaolu Tian, Chengyong Shu, Yikun Yi, Pei Liu, Te Wang, Long Qu, Bingbing Tian, Mingtao Li*, Wei Tang*, Bolun Yang, John B Goodenough*（诺贝尔化学奖获得者）, Upgrading Traditional Organic Electrolytes toward Future Lithium Metal Batteries: A Hierarchical Nano-SiO2-Supported Gel Polymer Electrolyte, ACS Energy Lett., 2020, 5, 1681.（影响因子：23.101）

(18) Yu Chen, Weimin Zhao, Quanhai Zhang, Guangzhi Yang, Jianming Zheng, Wei Tang,* Qunjie Xu, Chunyan Lai,* Junhe Yang, and Chengxin Peng*, Armoring LiNi1/3Co1/3Mn1/3O2 Cathode with Reliable Fluorinated Organic–Inorganic Hybrid Interphase Layer toward Durable High Rate Battery, Adv. Funct. Mater., 2020, 2000396. (影响因子: 18.808)

Before XJTU

(17) W. Tang, X. Yin, S. Kang, Z. Chen, B. Tian, S. Teo, X. Wang, X. Chi, K. P. Loh, H. Lee  G.W. Zheng, Lithium Silicide Surface Enrichment: A Solution to Lithium Metal Battery, Adv. Mater., 2018,30, 1801745; (影响因子: 30.849)

(16) W. Tang⁺, Z. Chen⁺, B. Tian⁺, H. Lee, X. Zhao, X. Fan, Y. Fan, K. Leng, C. Peng, M. Kim, M. Li, M. Lin, J. Su, J. Chen, H. Jeong, X. Yin, Q. Zhang, W. Zhou, K. Loh, G. Zheng, In Situ Observation and Electrochemical Study of Encapsulated Sulfur Nanoparticles by MoS2 Flakes, J. Am. Chem. Soc., 2017, 139, 10133; (《C&EN》亮点报道) (影响因子: 15.419)

(15) W. Tang, Y. Liu, C. Peng, M.Y. Hu, X. Deng, M. Lin, J.Z. Hu, K.P. Loh, Probing Lithium Germanide Phase Evolution and Structural Change in a Germanium-in-Carbon Nanotube Energy Storage System, J. Am. Chem. Soc., 2015, 137, 2600;  (影响因子: 15.419)

(14) W. Tang, Y. Y. Hou, F. Wang, L. L. Liu, Y. P. Wu, K. Zhu, LiMn2O4 Nanotube as Cathode Material of Second-Level Charge Capability for Aqueous Rechargeable Batteries, Nano Lett., 2013,13, 2036; (中国百篇最具影响力国际论文, ESI高引论文) (影响因子: 12.279)

(13) W. Tang, Y. Zhu, Y. Hou, L. Liu, Y. Wu, K.P. Loh, H. Zhang, K. Zhu, Aqueous rechargeable lithium batteries as an energy storage system of superfast charging, Energy Environ. Sci., 2013, 6, 2093; (影响因子: 33.250, ESI高引论文)

(12) W. Tang, L.L. Liu, S. Tian, Y.S. Zhu, Y.P. Wu, K. Zhu, An aqueous rechargeable lithium battery of excellent rate capability based on nanocomposite of MoO3 coating with PPy and LiMn2O4, Energy Environ. Sci., 2012, 5, 6909; (影响因子: 33.250)

(11) W. Tang⁺, X. Song⁺, Y. Du⁺, C. Peng, M. Lin, S. Xi, B. Tian, J. Zheng, Y. Wu, F.Pan, K. P. Loh, High-performance NaFePO₄ formed by Aqueous Ion- exchange and its mechanism for advanced Sodium Ion Batteries, J. Mater. Chem. A, 2016, 4, 4882; (影响因子: 10.733, JMCA热点文章)

(10) W. Tang, C.X. Peng, C.T. Nai, J. Su, Y.P. Liu, M.V. Reddy, M. Lin, K.P. Loh, Ultrahigh Capacity Due to Multi-Electron Conversion Reaction in Reduced Graphene Oxide-Wrapped MoO2 Porous Nanobelts, Small, 2015, 11, 2446; (影响因子: 10.856)

(9) W. Tang, X.W. Gao, Y.S. Zhu, Y.B. Yue, Y. Shi, Y.P. Wu, K. Zhu, A hybrid of V2O5 nanowires and MWCNTs coated with polypyrrole as an anode material for aqueous rechargeable lithium batteries with excellent cycling performance, J. Mater. Chem., 2012, 22, 20143. (影响因子:10.733)

(8) W. Tang, B. Goh, M. Y. Hu, C. Wan, B. Tian, X. Deng, C. Peng, M. Lin, J. Z. Hu, and K. P. Loh, In-situ Raman and Nuclear Magnetic Resonance Study of Trapped Lithium in the Solid Electrolyte Interface of Reduced Graphene Oxide, J. Phys. Chem. C, 2016, 120, 2600 (影响因子: 4.484)

(7) W. Tang,Y.Y. Hou, X.J. Wang, Y. Bai, Y.S. Zhu, H. Sun, Y.B. Yue, Y.P. Wu, K. Zhu, R. Holze , A hybrid of MnO2 nanowires and MWCNTs as cathode of excellent rate capability for supercapacitors, J. Power Sources, 2012, 197, 330; (ESI高引论文,影响因子: 6.945)

(6) W. Tang, X.J. Wang, Y.Y. Hou, L.L. Li, H. Sun, Y.S. Zhu, Y. Bai, K. Zhu, Y.P. Wu, T. van Ree, Nano LiMn2O4 as cathode material of high rate capability for lithium ion batteries, J. Power Sources, 2012, 198, 308. (ESI高引论文, 影响因子: 6.945)

(5) W. Tang, S. Tian, L.L. Liu, L. Li, H.P. Zhang , Y.B. Yue, Y. Bai, Y.P. Wu, K. Zhu, Nanochain LiMn2O4 as ultra-fast cathode material for aqueous rechargeable lithium batteries, Electrochem. Commun., 2011, 13, 205; (影响因子: 4.660)

(4) W. Tang, L.L Liu, S. Tian, L. Li, Y.B. Yue, Y.P. Wu, K.Zhu, Aqueous supercapacitors of high energy density based on MoO3 nanoplates as anode materials, Chem. Commun., 2011, 41,10058. (影响因子: 6.290)

(3) W. Tang, L.L. Liu, S. Tian, L. Li, L.L. Li, Y.B. Yue, Y. Bai, Y.P. Wu, K. Zhu, R. Holze , LiMn2O4  nanorods as a super-fast cathode material for aqueous rechargeable lithium batteries, Electrochem. Commun.,2011,13, 1159; (影响因子: 4.660)

(2) W. Tang, L.L. Liu, S. Tian,L. Li, Y.B. Yue, Y.P. Wu, S.Y. Guan, K. Zhu, Nano-LiCoO2 as cathode material of large capacity and high rate capability for aqueous rechargeable lithium batteries, Electrochem. Commun., 2010, 12, 1524; (影响因子:4.660)

(1) W.Tang, X. Yin, Z. Chen, W. Fu, K. Loh, G. Zheng, Chemically polished lithium metal anode for high energy lithium metal batteries, Energy Storage Mater., 2018, 14,289.