(1) Meng Yuan; Zhao Yingying; Wang Dashuai; Yang Di; Gao Yu; Lian Ruqian; Chen Gang; Wei Yingjin*; Fast Li+ diffusion in interlayer-expanded vanadium disulfide nanosheets for Li+/Mg2+ hybrid-ion batteries; Journal of Materials Chemistry A; 2018, 6, 14, 5782-5788.
(2) Meng Yuan; Wang Dashuai; Zhao Yingying; Lian Ruqian; Wei Yingjin* ;Bian Xiaofei; Gao Yu*; Du Fei; Liu Bingbing; Chen Gang; Ultrathin TiO2-B nanowires as an anode material for Mg-ion batteries based on a surface Mg storage mechanism; Nanoscale; 2017, 9, 35, 12934-12940.
(3) Meng Yuan; Wang Dashuai; Wei Yingjin*; Zhu Kai; Zhao Yingying; Bian Xiaofei; Du Fei; Liu Bingbing; Gao Yu*; Chen Gang; Competition between insertion of Li+ and Mg2+: An example of TiO2-B nanowires for Mg rechargeable batteries and Li+/Mg2+ hybrid-ion batteries; Journal of Power Sources; 2017, 346, 134-142
(4) Zhu Kai; Meng Yuan; Qiu Hailong; Gao Yu*; Wang Chunzhong; Du Fei; Wei Yingjin; Chen Gang; Facile synthesis of V2O5 nanoparticles as a capable cathode for high energy lithium-ion batteries; Journal of Alloys and Compounds; 2015,650,370-373.
(5) Ju Yanming; Meng Yuan; Wei Yingjin*; Bian Xiaofei; Pang Qiang; Gao Yu*; Du, Fei; Liu Bingbing; Chen Gang; Li+/Mg2+ Hybrid-Ion Batteries with Long Cycle Life and High Rate Capability Employing MoS2 Nano Flowers as the Cathode Material; Chemistry-A European Journal; 2016, 22,50,18073-18079.
(6) Zhang Yongquan; Meng Yuan; Zhu Kai; Qu Hailong; Ju Yanming; Gao Yu; Du Fei; Zou Bo; Chen Gang; Wei Yingjin*; Copper-Doped Titanium Dioxide Bronze Nanowires with Superior High Rate Capability for Lithium Ion Batteries; Acs Applied Materials and Interfaces; 2016, 8, 12, 7957-7965.
(7) Zhao Yingying; Pang Qiang; Meng Yuan; Gao Yu; Wang Chunzhong*; Liu Bingbing; Wei Yingjin*; Du Fei; Chen Gang; Self-Assembled CoS Nanoflowers Wrapped in Reduced Graphene Oxides as the High-Performance Anode Materials for Sodium-Ion Batteries; Chemistry-A European Journal; 2017, 23, 53, 13150-13157.
(8) Wei Luyao; Lian Ruqian; Zhao Yingying; Meng Yuan; He Li; Yu Yue; Chen Gang; Wei Yingjin*; Experimental Investigation and First-Principles Calculations of a Ni3Se4 Cathode Material for Mg-Ion Batteries; Acs Applied Materials and Interfaces; 2020, 12, 8, 9316-9321.
(9) Zhu Kai; Zhang Yu; Qiu Hailong; Meng Yuan; Gao Yu*; Meng Xing; Gao Zhongmin; Chen Gang; Wei Yingjin; Hierarchical Fe3O4 microsphere/reduced graphene oxide composites as a capable anode for lithium-ion batteries with remarkable cycling performance; Journal of Alloys and Compounds; 2016, 675, 399-406.
(10) Ju Yanming; Tang Joel A.; Zhu Kai; Meng Yuan; Wang Chunzhong; Chen Gang; Wei Yingjin; Gao Yu*; SiOx/C composite from rice husks as an anode material for lithium-ion batteries; Electrochimica Acta; 2016, 191, 411-416.
(11) Bian Xiaofei; Gao Yu; Fu Qiang; Indris Sylvio; Ju Yanming; Meng Yuan; Du Fei; Bramnik Natalia; Ehrenberg Helmut; Wei Yingjin*; A long cycle-life and high safety Na+/Mg2+ hybrid-ion battery built by using a TiS2 derived titanium sulfide cathode; Journal of Materials Chemistry A; 2017, 5, 2, 600-608.
(12) Guo Zhendong; Zhang Dong*; Qiu Hailong; Ju Yanming; Zhang Tong; Zhang Lijie; Meng Yuan; Wei Yingjin*; Chen Gang; Improved electrochemical properties of tavorite LiFeSO4F by surface coating with hydrophilic poly-dopamine via a self-polymerization process; Rsc Advances; 2016, 6, 8 , 6523-6527.
(13) Tao Xisheng; Li Yan; Wang Heng-guo*; Lv Xiaoling; Li Yanhui; Xu Dan; Jiang Ying; Meng Yuan; Multi-heteroatom-doped dual carbon-confined Fe3O4 nanospheres as high-capacity and long-life anode materials for lithium/sodium ion batteries; Journal of Colloid and Interface Science; 2020, 565, 494-502.