2024
[1] Jun Guo, Jia-Yi Du, Wan-Qiang Liu*, Gang Huang*, Xin-Bo Zhang*, Revealing Hydrogen Bond Effect in Rechargeable Aqueous Zinc-Organic Batteries, Angewandte Chemie-International Edition, https://doi.org/10.1002/anie.202406465.
[2] Song-Lin Tian, Li-Na Song, Li-Min Chang, Wan-Qiang Liu*, Huan-Feng Wang*, Ji-Jing Xu*, A Force-Assisted Li-O2 Battery Based on Piezoelectric Catalysis and Band Bending of MoS2/Pd cathode, Advanced Energy Materials, 14 (2024) 2303215.
[3] Song-Lin Tian, Ma-Lin Li, Li-Min Chang, Wan-Qiang Liu*, Ji-Jing Xu*, A highly reversible force-assisted Li-CO2 battery based on piezoelectric effect of Bi0.5Na0.5TiO3 nanorods, Journal of Colloid and Interface Science, 656 (2024) 146-154.
[4] Songlin Tian, Lina Song, Limin Chang, Wan-Qiang Liu*, Ji-Jing Xu*, A Magnetic/Force Coupling Assisted Lithium-Oxygen Battery Based on Magnetostriction and Piezoelectric Catalysis of CoFe2O4/BiFeO3Cathode, Nano Energy, 126 (2024) 109677.
[5] Renfei Cao, Kai Chen, Jianwei Liu, Gang Huang, Wanqiang Liu* & Xinbo Zhang*, Li-Air Batteries: Air Stability of Lithium Metal Anode, Science China-Chemistry, 67 (2024) 122-136.
[6] Zhenyu Hu, Li Lin, Yi Jiang, Lianshan Sun, Qingshuang Wang, Jianxun Zhao, Peng Chen, Xinwei Wang, Heng Liu, Wanqiang Liu*, Chunpeng Yang*, Fang Wang*, Wei Liu*, Research of the transition from a aqueous zinc ion battery to an aqueous hydrogen proton battery triggered by the Cu@Cu31S16 cathode material development, Journal of Colloid and Interface Science, 673 (2024) 628-637.
[7] Nan Ding, Wanqiang Liu*, Dongming Yin*, Shaolei Zhao, Wenfeng Qiao, Haixiang Xiu, Cong Liu, Qingyun Shi, Limin Wang, and Yong Cheng*, Optimization Strategy in Hydrogen Storage Performance of Ti-V-Cr-Mn Alloys via LiAlH4, Small, 20 (2024) 2309609.
[8] Jun Guo, Zhenbang Zhuang, Wanqiang Liu*, Gang Huang*,“Co-coordination force” assisted rigid-flexible coupling crystalline polymer for high-performance aqueous zinc-organic batteries, Chinese Chemical Letters, 35 (2024) 109803.
[9] Li Lin, Songlin Tian, Zhenyu Hu, Yu Zhang, Limin Chang, Jiajun Wang, Wanqiang Liu*, Qingshuang Wang*, Fang Wang*, Molecular crowding electrolytes for stabilizing Zn Metal Anode in Rechargeable Aqueous Batteries, Chinese Chemical Letters, 35 (2024) 109802.
[10] Haixiang Xiu, Wanqiang Liu*, Dongming Yin, Nan Ding, Wenfeng Qiao, Shaolei Zhao, Long Liang, Cong Liu, Shaohua Wang, Qingshuang Wang, Bingbing Chen, Limin Wang and Yong Cheng, Multidimensional regulation of Ti-Zr-Cr-Mn hydrogen storage alloys via Y partial substitution, Nano Research, 17:5 (2024) 4211-4220.
[11] Xinwei Wang*, Kangning Xu, Jiayi Guo, Zeyang Li, Siyang Liu, Lianshan Sun, Jianxun Zhao, Heng Liu, Wanqiang Liu*, Fang Wang, Synergistically accelerating capture and catalytic conversion of polysulfides by Co@NCNT-MoSe2 nanocomposite modified separator for advanced Lithium-Sulfur batteries, Chemical Engineering Journal 486 (2024) 150301.
[12] Li Lin a, Song-Lin Tian a, Li-Min Chang, Hai-Rui Wang, Ping Nie, Wan-Qiang Liu*, Qing-Shuang Wang, Yong Cheng, Fang Wang, An in-situ SbF3/Zn3Sb2 protective layer for dendrite-free zinc metal anode, Journal of Alloys and Compounds, 985 (2024) 174049.
[13] Song-Lin Tian, Li Lin a, Li-Min Chang, Cui-Mei Zhao, Wan-Qiang Liu*, Fang Wang*, Research progress of cathode catalyst for field-assisted Li-O2/CO2 battery, Journal of Energy Storage, 86 (2024) 111252.
2023
[1] Jiaxian Zheng, Yuncheng Wu, Hongxing Xie, Ye Zeng, Wanqiang Liu*, Appala Naidu Gandi, Zhengbing Qi, Zhoucheng Wang*, Hanfeng Liang*, In Situ Alloying Sites Anchored on an Amorphous Aluminum Nitride Matrix for Crystallographic Reorientation of Zinc Deposits, ACS Nano, 17 (2023) 337-345.
[2] Renfei Cao, Yangfeng Cui, Gang Huang, Wanqiang Liu*, Jianwei Liu*, and Xinbo Zhang*, Designing a photo-assisted Co-C3N4 cathode for high performance Li-O2 batteries, Nano Research, 16 (6) 2023, 8405-8410.
[3] Nan Ding, Wanqiang Liu* , Bingbing Chen, Shaohua Wang*, Shaolei Zhao, Qingshuang Wang, Chunli Wang, Dongming Yin, Limin Wang, Yong Cheng, Interface and body engineering via aluminum hydride enabling Ti-V-Cr-Mn alloy with enhanced hydrogen storage performance, Chemical Engineering Journal, 470 (2023) 144143.
[4] Renfei Cao, Kai Chen, Yangfeng Cui, Jianwei Liu, Wanqiang Liu*, Gang Huang*, Xinbo Zhang*, Gel Electrolyte via In Situ Polymerization to Promote Durable Lithium-Air Batteries, Chinese Chemical Letters, 34 (2023) 108711.
[5] Renfei Cao, Kai Chen, Jianwei Liu, Gang Huang, Wanqiang Liu* & Xinbo Zhang*, Li-Air Batteries: Air Stability of Lithium Metal Anode, Science China Chemistry, https://doi.org/10.1007/s11426-023-1581-2.
[6] Lianshan Sun, Wei Zhang, Jipeng Fu, Kai Guan, Chunli Wang*, Yong Wang, Wanqiang Liu*, Limin Wang, Highly active rare earth sulfur oxides used for membrane modification of lithium sulfur batteries, Chemical Engineering Journal, 457 (2023) 141240.
[7] Yang-feng Cui, Ren-fei Cao, Jia-yi Du, Zhen-bang Zhuang, Zi-long Xie, Qing-shuang Wang, Wan-qiang Liu*, Yun-hai Zhu*, and Gang Huang*, Dendrite-free and anticaustic Zn anode enabled by high current-induced reconstruction of electrical double layer, Chemical Communications, 59 (2023) 2437-2440.
[8] Xinlong Bao, Yuemin Li, Wanqiang Liu*, Jianxun Zhao*, Peng Chen, Heng Liu, Xinwei Wang, Lianshan Sun*, Preparation of Co9S8-Mo2C nanoparticles and their application in lithium-sulfur Batteries, Journal of Alloys and Compounds, 941 (2023) 168903.
[9] Xinlong Bao, Yuemin Li, Lianshan Sun,* Jianxun Zhao, Peng Chen, Heng Liu, Xinwei Wang and Wanqiang Liu*, Ni-Mo2C hollow carbon nanospheres with enhanced performance as the cathode for lithium sulfur batteries, Electrochimica Acta, 441 (2023) 141846.
[10] Lianshan Sun,* Xinlong Bao, Yuemin Li, Jianxun Zhao, Peng Chen, Heng Liu, Xinwei Wang, and Wanqiang Liu*, CoS2 and FeS2 Nanoparticles Embedded in Carbon Polyhedrons for Lithium-Sulfur Batteries, ACS Appl. Nano Mater. https://doi.org/10.1021/acsanm.3c00777.
[11] Zhaolin Na*, Wenjing Li, Xinran Wang, Dayong Liu, Jing Sun, Mingfei Lang, Wanqiang Liu*, Gang Huang*, Mesoporous gold film with surface sulfur modification to enable dendrite-free lithium plating/stripping for long-life lithium metal anodes, Small Methods, 2023, 2201218.
[12] Li Lin, Song-Lin Tian, Luan Fang, Li-Min Chang, Wan-Qiang Liu*, Qing-Shuang Wang*, PVP surface modification layer spacing and vacancy enhanced zinc ions storage and stability, Journal of Energy Storage, 72 (2023) 108356.
[13] Wenhao Fan, Jianxun Zhao, Dayong Liu, Qingcheng Liang*, Wanqiang Liu*, Xin Guo, Qingshuang Wang, Heng Liu, Peng Chen, Shang Gao, Yong Cheng, Xinwei Wang, Synthesis of Mo2C@MWCNTs and its application in improving the electrochemical hydrogen storage properties of Co0.9Cu0.1Si alloy, Journal of Energy Storage, 72 (2023) 108264.
2022
[1] Yang-feng Cui,Yun-hai Zhu,Jia-yi Du, Yong-lai Zhang, Kai Li,Wan-qiang Liu, Gang Huang, Xin-bo Zhang*, A high-voltage and stable zinc-air battery enabled by dual-hydrophobic-induced proton shuttle shielding, Joule, 6 (2022) 1617-1631.
[2]Yangfeng Cui, Zhenbang Zhuang, Zilong Xie, Renfei Cao, Qi Hao, Ning Zhang, Wanqiang Liu*, Yunhai Zhu*, Gang Huang*, High-Energy and Long-Lived Zn-MnO2 Battery Enabled by a Hydrophobic-Ion-Conducting Membrane, ACS Nano, 16 (2022) 20730-20738.
[3] Jiaxian Zheng, Zhen Cao, Fangwang Ming, Hanfeng Liang*, Zhengbing Qi, Wanqiang Liu*, Chuan Xia, Cuixue Chen, Luigi Cavallo, Zhoucheng Wang*, Husam N. Alshareef. Alshareef, Preferred Orientation of TiN Coatings Enables Stable Zinc Anodes, ACS Energy Letters, 2022, 7: 197-203.
[4] Jiaxian Zheng, Zihao Huang, Ye Zeng, Wanqiang Liu*, Binbin Wei, Zhengbing Qi, Zhoucheng Wang*, Chuan Xia, Hanfeng Liang*, Electrostatic Shielding Regulation of Magnetron Sputtered Al-Based Alloy Protective Coatings Enables Highly Reversible Zinc Anodes, Nano Letters, 2022, 22: 1017-1023.
[5] Yong Cheng, Yan Sun, Changting Chu, Limin Chang*, Zhaomin Wang, Dongyu Zhang, Wanqiang Liu*, Zechao Zhuang*, Limin Wang, Stabilizing effects of atomic Ti doping on high-voltage high-nickel layered oxide cathode for lithium-ion rechargeable batteries, Nano Research, 15 (2022) 4091-4099.
[6] Xuejian shi, Wanqiang Liu*, Dongyu Zhang, Chunli Wang, Jianxun Zhao, Xinwei Wang, Bingbing Chen*, Limin Chang, Yong Cheng*, Limin Wang, Nanoscale localized growth of SnSb for general-purpose high performance alkali (Li, Na, K) ion storage, Chemical Engineering Journal, 431 (2022) 134318.
[7] Heng Liu, Feifei Jin, Dayong Liu, Wanqiang Liu*, Jianxun Zhao*, Peng Chen, Qingshuang Wang, Xinwei Wang, Yong Cheng*, Synthesis of ZIF-8 derived porous carbon/NiS hexahedral composite and its application in improving the electrochemical hydrogen storage properties of Co-P materials, International Journal of Hydrogen Energy, 2022, 47, 20572-20584.
[8] Heng Liu, Feifei Jin, Dayong Liu, Junkai Zhang, Hongsheng Jia, Wanqiang Liu*, Jianxun Zhao*, Yong Cheng*, Enhanced electrochemical hydrogen storage performance of Ti49Zr26Ni25 quasicrystal alloy by coating with ZIF-8 derived porous carbon/MoS2 composite, Journal of Alloys and Compounds, 2022, 918, 165665.
[9] Yuying Gui, Peng Chen*, Dayong Liu, Yu Fan, Jun zhou, Jianxun Zhao, Heng Liu, Xin Guo, Wanqiang Liu*, Yong Cheng*, TiO2 nanotube/RGO modified separator as an effective polysulfide-barrier for high electrochemical performance Li-S batteries, Journal of Alloys and Compounds, 2022, 895, 162495.
[10] Jianxun Zhao, Jian Lv, Dayong Liu, Wanqiang Liu*, Heng Liu, Peng Chen, Xinwei Wang, Yong Cheng, Xin Guo, The different effect of Co3O4 or/and carbon fiber originated from biomass on the electrochemical hydrogen storage performance of Co2B alloy, International Journal of Hydrogen Energy, 2022, 47, 490-500.
[11] Ying Liu, Li Lin, Limin Wang, Shen Ye, Wanqiang Liu*, Yong Cheng*, Three-dimensional SnCu scaffold with layered porous structure enable dendrite-free anode of lithium metal batteries, Journal of Alloys and Compounds, 2022, 928, 166976.
[12]Yan Sun, Dayong Liu, Wanqiang Liu*, Heng Liu*, Jianxun Zhao, Peng Chen, Xinwei Wang, Yong Cheng*, Combination of ZIF-67 derived hollow porous Co9S8 nanocages and MWCNTs for electrochemical hydrogen storage applications, International Journal of Hydrogen Energy, 47 (2022) 37870-37881.
[13]Haili Zhao, Junkai Zhang, HongSheng Jia, Jianxun Zhao*, Peng Chen, Heng Liu, Yongjin Zou, Xin Guo, Wanqiang Liu*, Xinwei Wang, Effect of flower-like Ni/C nanocrystal on electrochemical hydrogen storage properties of Co-P alloy, Journal of Physics and Chemistry of Solids, 161 (2022) 110496.
[14]Nan Ding, Dayong Liu, Wanqiang Liu*, Jianxun Zhao, Jing Lin, Limin Wang, Fei Liang*, Excellent kinetics and effective hydrogen storage capacity at low temperature of superlattice rare-earth hydrogen storage alloy by solid-phase treatment, Journal of Physics and Chemistry of Solids, 161 (2022) 110402.
2021
[1] Shaohua Wang, Yong Cheng*, Hongjin Xue, Dongyu Zhang, Wanqiang Liu*, Limin Chang*, Limin Wang, Verification of Electrolyte Decomposition in Lithium-Ion Batteries: Based on the Unique Bowling-Like Sn@C/EG-S Composite, Chemical Engineering Journal, 2021, 422, 130520.
[2] Xuejian Shi, Wanqiang Liu*, Hongjin Xue, Bingbing Chen*, Chunli Wang, Lianshan Sun*, Limin Chang, Yong Cheng, Limin Wang, An exploration on the improvement of reversible conversion and capacity retention of Sb2O3-based anode materials for alkali metal-ion storage by Fe-C co-hybridization, Journal of Power Sources, 2021, 506, 230074.
[3] Yan Sun, Dayong Liu, Wanqiang Liu*, Heng Liu*, Peng Chen, Jianxun Zhao, Yong Cheng*, Qingshuang Wang, Xinwei Wang, Preparation of porous polyaniline/RGO composite and its application in improving the electrochemical properties of Co9S8 hydrogen storage alloy, International Journal of Hydrogen Energy, 2021, 46, 40239-40250.
[4] Bingyu Zhang, Dayong Liu, Peng Chen*, Wanqiang Liu*, Jianxun Zhao, Huicheng Li, Improved perovskite crystallization via antisolvent-assisted processed using additive engineering for efficient perovskite solar cells, Journal of Alloys and Compounds, 2021, 855, 157396.
[5] Yan Sun, Dayong Liu, Wanqiang Liu*, Heng Liu*, Jianxun Zhao, Peng Chen, Qingshuang Wang, Xinwei Wang, Yongjin Zou, Fabrication of porous polyaniline/MWCNTs coated Co9S8 composite for electrochemical hydrogen storage application, Journal of Physics and Chemistry of Solids, 157 (2021) 110235.
2020
[1] Zhe Li, Malin Li, Xiaoxue Wang, Dehui Guan, Wanqiang Liu*, JiJing Xu*, In-Situ Fabricated Photo-Electro-Catalytic Hybrid Cathode for Light-Assisted Lithium-CO2 batteries, Journal of Materials Chemistry A, 8 (2020) 14799-14806.
[2] Heng Liu, Wanqiang Liu*, Yan Sun, Peng Chen, Jianxun Zhao* Xin Guo, Zhongmin Su, Preparation and electrochemical hydrogen storage properties of Ti49Zr26Ni25 alloy covered with porous polyaniline, International Journal of Hydrogen Energy, 45 (2020) 11675-11685.
[3] Heng Liu, Wanqiang Liu*, Peng Chen, Jianxun Zhao*, Zhongmin Su, Preparation and electrochemical hydrogen storage properties of Co9S8 alloy coated with cobalt/graphene composite, International Journal of Energy Research, 44 (2020) 11742-11755.
[4] Nan Ding, Wanqiang Liu*, Lianshan Sun*, Jing Lin, Fei Liang, Limin Wang, An enhanced quasicrystalline Ti1.4V0.6Ni alloy electrode modified by uniformly covered RGO for nickel metal hydride battery, Intermetallics, 127 (2020) 106972.
[5]Peng Chen, Zexi Wang, Bingyu Zhang, Heng Liu, Xin Guo, Wanqiang Liu*, Zhongmin Su, Multi-Functional TiO2 Nanosheets/carbon nanotubes Modified Separator Enhanced Cycling Performance for Lithium-Sulfur Batteries, International Journal of Energy Research, 44 (2020) 3231-3240.
[6]Peng Chen, Zexi Wang, Bingyu Zhang, Heng Liu, Wanqiang Liu*, Jianxun Zhao*, Zhihua Ma, Wenyue Dong, Zhongmin Su, Reduced graphene oxide/TiO2(B) nanocomposite modified separator as an efficient inhibitor of polysulfide shuttling in Li-S batteries, RSC advance, 10 (2020) 4538-4544.
2019
[1] Xiaojie Zhai, Zhe Li, Xiangjun Zhou, Heng Liu, Jing Sun, Zhongmin Su, Wanqiang Liu*, Jianxun Zhao*, Improved electrochemical hydrogen storage properties of Ti49Zr26Ni25 quasicrystal alloy by doping with Pd and MWCNTs, International Journal of Hydrogen Energy, 2019, 44, 29356-29364.
[2] Heng Liu, Liyuan Tan, Yalan Guo, Peng Chen, Shang Gao, Zhongmin Su, Wanqiang Liu*, Jianxun Zhao*, Fabrication and electrochemical hydrogen storage performance of Ti49Zr26Ni25 alloy covered with Cd/Pd core/shell particles, International Journal of Hydrogen Energy, 44 (2019) 24800 - 24809
[3]Jianxun Zhao, Xiangjun Zhou, Yalan Guo, Zhongmin Su, Heng Liu*, Wanqiang Liu*, Shang Gao, Effect of palladium addition on electrochemical hydrogen storage properties of Co0.9Cu0.1Si alloy, Solid State Sciences, 91 (2019) 1-6.
[4] Heng Liu, Xiangjun Zhou, Xiaojie Zhai, Xing Tao, Zhe Li, Qingshuang Wang, Jianxun Zhao*, Wanqiang Liu*, Shang Gao, Dayong Jiang, Influence of LiH addition on electrochemical hydrogen storage performance of Ti45Zr38Ni17quasicrystal, Solid State Sciences, 87 (2019) 53-57.
[5]Lei Zhang, Yinan Zhang, Dongfang Lv, Heng Liu*, Jianxun Zhao, Peng Chen, Wanqiang Liu*, Enhanced electrochemical hydrogen storage performance of Ti49Zr26Ni25 alloy by doping with Pd nanoparticles deposited MWCNTs, Solid State Sciences, 94 (2019) 138-144.
2018
[1] Heng Liu, Xiaojie Zhai, Zhe Li, Xing Tao, Wanqiang Liu*, Jianxun Zhao*, Improved electrochemical hydrogen storageperformance of Ti49Zr26Ni25 quasicrystal alloy by doping with mesoporous a-Fe2O3 particles, International Journal of Hydrogen Energy, 2018, 43, 7447-7455.
[2] Heng Liu, Xiaojie Zhai, Zhe Li, Xing Tao, Shang Gao, Jianxun Zhao*, Wanqiang Liu*, Effect of mesoporous a-Fe2O3 nanoparticles doping on the structure and electrochemical hydrogen storage properties of Co0.9Cu0.1Si alloy, Journal of Alloys and Compounds, 2018, 755, 147-153.
[3] Jianxun Zhao, Xiaojie Zhai, Xing Tao, Zhe Li, Qingshuang Wang, Wanqiang Liu*, Limin Wang, Improved electrochemical hydrogen storage capacity of Ti45Zr38Ni17 quasicrystal by addition of ZrH2, Journal of Materials Science & Technology, 2018, 34, 995-998.
[4] Jianxun Zhao, Xiaojie Zhai, Xing Tao, Heng Liu*, Wanqiang Liu*, Dayong Jiang, Shang Gao, Effect of MWCNTs and lithium modified MWCNTs on electrochemical hydrogen storage properties of Co0.9Cu0.1Si alloy, International Journal of Hydrogen Energy, 2018, 43, 13383-13392.
[5]Heng Liu, Xiaojie Zhai, Zhe Li, Xing Tao, Wanqiang Liu*, Jianxun Zhao*, Dayong Jiang, Shang Gao, Preparation and electrochemical hydrogen storage properties of MWCNTs doped Ti49Zr26Ni25 alloy containing quasicrystal phase, Solid State Sciences, 83 (2018) 17-22.
