发表论文

(48) Z. Jia, H. Shen*, J. Kou, T. Zhang, Z. Wang, W. Tang*, M. Doeff, C.-Y. Chiang, K. Chen*, Solid Electrolyte Bimodal Grain Structures for Improved Cycling Performance. Adv. Mater. 2024, 2309019. (SCI, 影响因子:29.4

 

(47) M. Yang, Z. Fan, J. Liu, Y. Ma, Y. Bai, X. Wang, H. Zhang, F. Hai, W. Hua, Y. Ma*, Y. Wu* and W. Tang*Insights into the Facet and Morphological Domination on the Electrochemical Performance of Layered NaNi1/3Fe1/3Mn1/3O2 for Sodium-Ion BatteriesEnergy & Fuels2024 (accepted) (SCI, 影响因子:5.3

 

(46) Z. Wang, J. Tan, J. Cui, K. Xie, Y. Bai, Z. Jia, X. Gao, Y. Wu and W. Tang*. A novel asymmetrical multilayered composite electrolyte for high-performance ambient-temperature all-solid-state lithium batteries. J. Mater. Chem. A, 2024 (accepted) (SCI, 影响因子:11.9

 

(45) Han D, Zhang J, Yang M, Xie K, Peng J, Dolotko O, Huang C, Wu Y, Shao L, Hua W, Tang W*. 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.

 

(44) 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:15.1

 

(43) 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)

 

(42) Jiangqi Zhou, Chengyong Shu, Jiawu Cui, Chengxin Peng*, Yong Liu*, Weibo Hua, Laura Simonelli, Yuping Wu, Shi Xue Dou, Wei Tang*, Metal-free 2D Phosphorene-Based Electrocatalyst with Covalent P-N Heterointerfacial Reconstruction for Electrolyte-Lean Lithium Sulfur Batteries, Carbon Energy. (SCI, 影响因子:20.5) (accepted)

(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. TangB. GohM. Y. HuC. WanB. TianX. DengC. PengM. LinJ. 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 batteriesJ. 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.