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2021 Journal Article A high-performance ammonia plasma-treated WO<sub>3</sub> @carbon felt electrode for vanadium redox flow batteriesXiang, Weizhe, Xu, Jian, Zhang, Yiqiong, Fu, Hu, Zhu, Xiaobo, Lou, Xuechun, Qin, Chengpeng, Ding, Mei and Jia, Chuankun (2021). A high-performance ammonia plasma-treated WO3 @carbon felt electrode for vanadium redox flow batteries. Functional Materials Letters, 14 (07). doi: 10.1142/s1793604721430098 |
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2021 Journal Article A deep learning-machine learning fusion approach for the classification of benign, malignant, and intermediate bone tumorsLiu, Renyi, Pan, Derun, Xu, Yuan, Zeng, Hui, He, Zilong, Lin, Jiongbin, Zeng, Weixiong, Wu, Zeqi, Luo, Zhendong, Qin, Genggeng and Chen, Weiguo (2021). A deep learning-machine learning fusion approach for the classification of benign, malignant, and intermediate bone tumors. European Radiology, 32 (2), 1371-1383. doi: 10.1007/s00330-021-08195-z |
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2020 Journal Article Lithiation-induced vacancy engineering of Co3O4 with improved faradic reactivity for high-performance supercapacitorZhang, Yu, Hu, Yuxiang, Wang, Zhiliang, Lin, Tongen, Zhu, Xiaobo, Luo, Bin, Hu, Han, Xing, Wei, Yan, Zifeng and Wang, Lianzhou (2020). Lithiation-induced vacancy engineering of Co3O4 with improved faradic reactivity for high-performance supercapacitor. Advanced Functional Materials, 30 (39) 2004172, 2004172. doi: 10.1002/adfm.202004172 |
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2020 Journal Article Advances in materials for all‐climate sodium‐ion batteriesZhu, Xiaobo and Wang, Lianzhou (2020). Advances in materials for all‐climate sodium‐ion batteries. EcoMat, 2 (3) eom2.12043. doi: 10.1002/eom2.12043 |
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2020 Journal Article MXene derived TiS2 nanosheets for high-rate and long-life sodium-ion capacitorsTang, Jiayong, Huang, Xia, Lin, Tongen, Qiu, Tengfei, Huang, Hengming, Zhu, Xiaobo, Gu, Qinfen, Luo, Bin and Wang, Lianzhou (2020). MXene derived TiS2 nanosheets for high-rate and long-life sodium-ion capacitors. Energy Storage Materials, 26, 550-559. doi: 10.1016/j.ensm.2019.11.028 |
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2020 Journal Article Faster activation and slower capacity/voltage fading: a bifunctional urea treatment on lithium‐rich cathode materialsLin, Tongen, Schulli, Tobias U., Hu, Yuxiang, Zhu, Xiaobo, Gu, Qinfen, Luo, Bin, Cowie, Bruce and Wang, Lianzhou (2020). Faster activation and slower capacity/voltage fading: a bifunctional urea treatment on lithium‐rich cathode materials. Advanced Functional Materials, 30 (13) 1909192, 1-10. doi: 10.1002/adfm.201909192 |
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2020 Journal Article Two‐dimensional material‐functionalized separators for high‐energy‐density metal–sulfur and metal‐based batteriesHu, Yuxiang, Zhu, Xiaobo and Wang, Lianzhou (2020). Two‐dimensional material‐functionalized separators for high‐energy‐density metal–sulfur and metal‐based batteries. ChemSusChem, 13 (6) cssc.201902758, 1366-1378. doi: 10.1002/cssc.201902758 |
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2020 Journal Article Stabilizing high-voltage cathode materials for next-generation Li-ion batteriesZhu, Xiaobo, Schulli, Tobias and Wang, Lianzhou (2020). Stabilizing high-voltage cathode materials for next-generation Li-ion batteries. Chemical Research in Chinese Universities, 36 (1), 24-32. doi: 10.1007/s40242-020-9103-8 |
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2019 Journal Article Hollow structured cathode materials for rechargeable batteriesZhu, Xiaobo, Tang, Jiayong, Huang, Hengming, Lin, Tongen, Luo, Bin and Wang, Lianzhou (2019). Hollow structured cathode materials for rechargeable batteries. Science Bulletin, 65 (6), 496-512. doi: 10.1016/j.scib.2019.12.008 |
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2019 Journal Article Sandwich‐like ultrathin TiS 2 nanosheets confined within N, S codoped porous carbon as an effective polysulfide promoter in lithium‐sulfur batteriesHuang, Xia, Tang, Jiayong, Luo, Bin, Knibbe, Ruth, Lin, Tongen, Hu, Han, Rana, Masud, Hu, Yuxiang, Zhu, Xiaobo, Gu, Qinfen, Wang, Dan and Wang, Lianzhou (2019). Sandwich‐like ultrathin TiS 2 nanosheets confined within N, S codoped porous carbon as an effective polysulfide promoter in lithium‐sulfur batteries. Advanced Energy Materials, 9 (32) 1901872, 1901872. doi: 10.1002/aenm.201901872 |
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2019 Journal Article Unlocking the potential of commercial carbon nanofibers as free-standing positive electrodes for flexible aluminum ion batteriesHu, Yuxiang, Debnath, Shaikat, Hu, Han, Luo, Bin, Zhu, Xiaobo, Wang, Songcan, Hankel, Marlies, Searles, Debra J. and Wang, Lianzhou (2019). Unlocking the potential of commercial carbon nanofibers as free-standing positive electrodes for flexible aluminum ion batteries. Journal of Materials Chemistry A, 7 (25), 15123-15130. doi: 10.1039/c9ta04085d |
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2018 Journal Article A stable high-power Na2Ti3O7/LiNi0.5Mn1.5O4 Li-ion hybrid energy storage deviceZhu, Xiaobo, Sun, Dan, Luo, Bin, Hu, Yuxiang and Wang, Lianzhou (2018). A stable high-power Na2Ti3O7/LiNi0.5Mn1.5O4 Li-ion hybrid energy storage device. Electrochimica Acta, 284, 30-37. doi: 10.1016/j.electacta.2018.07.153 |
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2018 Journal Article New binder-free metal phosphide-carbon felt composite anodes for sodium-ion batterySun, Dan, Zhu, Xiaobo, Luo, Bin, Zhang, Yu, Tang, Yougen, Wang, Haiyan and Wang, Lianzhou (2018). New binder-free metal phosphide-carbon felt composite anodes for sodium-ion battery. Advanced Energy Materials, 8 (26) 1801197, 1801197. doi: 10.1002/aenm.201801197 |
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2018 Journal Article A new sodium iron phosphate as a stable high-rate cathode material for sodium ion batteriesZhu, Xiaobo, Mochiku, Takashi, Fujii, Hiroki, Tang, Kaibin, Hu, Yuxiang, Huang, Zhenguo, Luo, Bin, Ozawa, Kiyoshi and Wang, Lianzhou (2018). A new sodium iron phosphate as a stable high-rate cathode material for sodium ion batteries. Nano Research, 11 (12), 1-9. doi: 10.1007/s12274-018-2139-0 |
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2018 Journal Article Recent advances on Fe- and Mn-based cathode materials for lithium and sodium ion batteriesZhu, Xiaobo, Lin, Tongen, Manning, Eric, Zhang, Yuancheng, Yu, Mengmeng, Zuo, Bin and Wang, Lianzhou (2018). Recent advances on Fe- and Mn-based cathode materials for lithium and sodium ion batteries. Journal of Nanoparticle Research, 20 (6) 160. doi: 10.1007/s11051-018-4235-1 |
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2018 Journal Article A binder-free and free-standing cobalt sulfide@carbon nanotube cathode material for aluminum-ion batteriesHu, Yuxiang, Ye, Delai, Luo, Bin, Hu, Han, Zhu, Xiaobo, Wang, Songcan, Li, Linlin, Peng, Shengjie and Wang, Lianzhou (2018). A binder-free and free-standing cobalt sulfide@carbon nanotube cathode material for aluminum-ion batteries. Advanced Materials, 30 (2) 1703824, 1703824. doi: 10.1002/adma.201703824 |
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2018 Journal Article Controllable growth of SnS2 nanostructures on nanocarbon surfaces for Lithium-ion and Sodium-ion storage with high rate capabilityLuo, Bin, Yuxiang Hu, Zhu, Xiaobo, Qiu, Tengfei, Zhi, Linjie, Mu Xiao, Zhang, Haijiao, Zou, Mingchu, Cao, Anyuan and Wang, Lianzhou (2018). Controllable growth of SnS2 nanostructures on nanocarbon surfaces for Lithium-ion and Sodium-ion storage with high rate capability. Journal of Materials Chemistry A, 6 (4), 1462-1472. doi: 10.1039/C7TA09757C |
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2017 Journal Article An innovative freeze-dried reduced graphene oxide supported SnS2 cathode active material for aluminum-ion batteriesHu, Yuxiang, Luo, Bin, Ye, Delai, Zhu, Xiaobo, Lyu, Miaoqiang and Wang, Lianzhou (2017). An innovative freeze-dried reduced graphene oxide supported SnS2 cathode active material for aluminum-ion batteries. Advanced Materials, 29 (48) 1606132. doi: 10.1002/adma.201606132 |
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2016 Journal Article Structure control of nitrogen-rich graphene nanosheets using hydrothermal treatment and formaldehyde polymerization for supercapacitorsWen, Yangyang, Rufford, Thomas E., Hulicova-Jurcakova, Denisa, Zhu, Xiaobo and Wang, Lianzhou (2016). Structure control of nitrogen-rich graphene nanosheets using hydrothermal treatment and formaldehyde polymerization for supercapacitors. ACS Applied Materials and Interfaces, 8 (28), 18051-18059. doi: 10.1021/acsami.6b04572 |
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2016 Journal Article Hierarchical macro/mesoporous NiO as stable and fast-charging anode materials for lithium-ion batteriesZhu, Xiaobo, Luo, Bin, Butburee, Teera, Zhu, Jingwen, Han, She and Wang, Lianzhou (2016). Hierarchical macro/mesoporous NiO as stable and fast-charging anode materials for lithium-ion batteries. Microporous And Mesoporous Materials, 238, 78-83. doi: 10.1016/j.micromeso.2016.03.020 |
