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  • [17]Yongyuan Lin, Xueying Li*Wenlong Zheng, Yongfeng Gang, Lei Liu, Xin Cui, Yuanyuan Dan, Lizhuang Chen*, Xiaofang Cheng, Effect of SiO2 microstructure on ionic transport behavior of self-healing composite electrolytes for sodium metal batteries. Journal of Membrane Science, 2023, 672:121442.

    [16]Xueying Li*, Fenyan Duan, Xiaoyan Lu, Yongfeng Gang, Wenlong Zheng, Yongyuan Lin,  Lizhuang Chen*, Yuanyuan Dan, Xiaofangcheng, Surface engineering of flower-like Co-N-C on carbon paper for improved overall water splitting. Journal of Alloys and Compounds, 2023, 935:168128.

    [15]Xueying Li*, Fenyan Duan, Miaoran Deng, Wenlong Zheng, Yongyuan Lin, Yuanyuan Dan, Xiaofangcheng, Lizhuang Chen, Effect of Fe doping on Co-S/carbon cloth as bifunctional electrocatalyst for enhanced water splitting. Journal of Electroanalytical Chemistry, 2022, 922:116723.

    [14] Xueying Li*, Fenyan Duan, Yalin Xu, Yongyuan Lin, Wenlong Zheng, Zhenru Cao, Lei Liu, Xingdong Zhu, Miaoran Deng, Yuanyuan Dan, Xiaofang Cheng, Lizhuang Chen*, Stabilized coralloid-like CoP with N, P-codoped carbon shell on carbon paper for enhanced sodium storage. ChemElectroChem, 2022, 9: e202101606.

    [13] Xueying Li*, Jiangang Wang, Fenyan Duan, Luwen Tao, Teng Xu, Lizhuang Chen, Aihua Yuan, Xiaolong Wang,  Improved cycling stability of  P2-type Na0.71Co0.96O2 cathode material by optimizing Ti doping. Journal  of  Solid State Electrochemistry, 2022, 26: 269-280.

    [12] Jiangang Wang, Xueying Li*, Yalin Xu, Fenyan Duan, Shuai Yang, Zhenru Cao, Yuanyuan Dan, Lizhuang Chen*, Xiaofang Cheng. Interlayer spacing-controlled Na0.71Co0.96O2 with high pseudocapacitance for enhanced sodium storage. Energy&Fuels, 2021,35: 3479-3489.

    [11] Xue-Ying Li*,Xiu Qian, Ya-Lin Xu, Fen-Yan Duan, Qing Yu, Jiang-Gang Wang, Li-Zhuang Chen, Yuan-Yuan Dan, Xiang-Fang Cheng. Electrodeposited cobalt phosphides with hierarchical nanostructure on bimass carbon for bifunctional water splitting in alkaline solution. Journal of Alloys and Compounds, 2020, 829:154535.

    [10] Xue-Ying Li*, Ya-Lin Xu, Hui Wu, Xiu Qian, Li-Zhuang Chen*, Yuan-Yuan Dan, Qing Yu.Porous Fe3O4/C nanoaggregates by the carbon polyhedrons as templates derived from metal organic framework as battery-type materials for supercapacitors. Electrochimica Acta, 2020, 337:135818.

    [9] Ya-Lin Xu, Xue-Ying Li*, Jiangang Wang, Qing Yu, Xiu Qian, Li-Zhuang Chen*, Yuan-Yuan Dan. Fe-doped CoP flower-like microstructure on carbon membrane as integrated electrode with enhanced sodium ion storage. Chemistry- A European Journal, 2020, 26: 1298-1305 (cover feature)

    [8] Xue-Ying Li*, Xiu Qian, Ya-Lin Xu, Hui Wu, Yuan-Yuan Dan, Li-Zhuang Chen*, Qing Yu. Fe-Co-P/C with strong coupling interaction for enhanced sodium ion batteries and oxygen evolution reactions. Electrochimica Acta, 2019, 321:134646.

    [7]Hui Wu, Xue-Ying Li*, Li-Zhuang Chen*, Yuan-Yuan Dan. Facile synthesis of hierarchical iron phosphide/biomass carbon composites for binder-free sodium ion batteries. Batteries& Supercaps, 2019, 2: 144-152.

    [6] Xue-Ying Li, Li-Zhuang Chen, Yong-Quan Qu,Yuan-Yuan Ma. Carbon-assisted conversion reaction-based oxide nanomaterials for lithium-ion batteries. Sustainable Energy Fuels, 2018, 2:1124-1140.

    [5] Xue-Ying Li, Yuan-Yuan Ma*, Guo-Zhong Cao, and Yong-Quan Qu*. FeOx@carbon yolk-shell nanowires with tailored void spaces as stable and high-capacity anodes for lithium ion batteries. Journal of Materials Chemistry A, 2016, 4:12487-12496.

    [4] Xue-Ying Li and Yong-Quan Qu*. Morphology evolution of tin oxide hierarchical structures synthesized by molten salt approach and their applications as anode for lithium ion battery. Crystal Growth & Design, 2016, 16:34-41.

    [3] Xue-Ying Li, Zhi-Yun Zhang, Jing Li, Yuan-Yuan Ma* and Yong-Quan Qu*. Structural influence of porous FeOx@C nanorods on their performance as anodes of lithium-ion batteries. Journal of Materials Chemistry A, 2015, 3:18649-18656.

    [2] Xue-Ying Li, Yuan-Yuan Ma, Lei Qin, Zhi-Yun Zhang, Zhong Zhang, Yan-Zhen Zheng and Yong-Quan Qu*. A bottom-up synthesis of α-Fe2O3 nanoaggregates and their composites with graphene as high performance anodes in lithium-ion batteries. Journal of Materials Chemistry A, 2015, 3:2158-2165.

    [1] Xue-Ying LiJing Li, Xue-Mei Zhou, Yuan-Yuan Ma, Zhi-Ping Zheng, Xiang-Feng Duan and Yong-Quan Qu*. Silver nanoparticles protected by monolayer graphene as a stabilized substrate for surface enhanced Raman spectroscopy. Carbon, 2014, 66:713-719.