713贵宾会(中国·VIP认证)检测线路·Maigoo百科

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总体介绍
荣退教师
学院教师
博士生导师
硕士生导师
高级职称
姓       名:刘万强
学       历:研究生/博士
职       称:教授/博士生导师
研究方向:新能源材料与器件
邮       箱:wqliu@cust.edu.cn
主要学习、工作经历
2015.11—2016.11 日本(筑波) 国立产业技术综合研究所 访问学者
2015.09—至今 长春理工大学 713贵宾会检测线路 教授 博士生导师
2014.03—2014.06 东北师范大学 教育部留日预备学校 学员
2012.09—2015.09 长春理工大学 713贵宾会检测线路 副教授
2008.06—2012.09 长春理工大学 713贵宾会检测线路 讲师
2009.03—2011.05 中国科学院长春应化所 稀土资源与利用实验室 博士后
2005.09—2008.06 吉林大学 超硬材料国家重点实验室 博士学位
2003.09—2005.07 吉林大学 超硬材料国家重点实验室 硕士学位
1999.09—2003.07 北华大学 物理系 学士学位
主要教学工作
本科生:“固体物理”、“量子与统计”,硕士生:先进储能材料与制备技术
代表性科研项目
研究方向:

1.碱金属电池金属负极保护。

2.金属-离子/空气电池新型电极材料、电解液的设计。

3.储氢材料

承担项目:

10.基于低负正极活性物质(N/P)比水系锌离子电池的体系构建及优化,吉林省科技厅自然基金,项目负责人,2023-2025,在研

9.一体化Sn基电极的结构设计及储锂/纳稳定机制,重庆市科技局自然基金,2022-2025,项目负责人,在研

8. Sn/Sb基复合物微纳米电极材料的构筑及其储锂/纳特性研究,国家科技部重点研发计划,2019-2022,子课题负责人,在研

7. 适用于高功率负载的宽温电池关键材料研制及应用,吉林省科技厅重点研究计划,2020-2022,项目负责人,在研

6. 新能源汽车用宽温电池材料的研制,院地合作项目2017-2019,项目负责人,结题

5. 渗锂高熵变Ti基准晶储氢性能的研究,国家自然科学基金青年基金,2015-2017,项目负责人,结题

4. 太阳能灯宽温储能电池材料的研制与应用,吉林省重点科技攻关计划,2014-2016, 项目负责人,结题

3. 锂-空气二次电池用高性能复合空气电极制备技术研究,吉林省自然科学基金,2012-2014,项目负责人,结题

2. Ti基准晶复相材料的制备及其储氢特性的研究,高等学校博士点基金, 2012-2014,项目负责人,结题

1. 新型高能量密度动力锂电池关键材料技术研究,长春市科技支撑计划,2011-2013,项目负责人,结题
代表性论文或专利

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.

[14] Lianshan Sun, Chunyu Yue, Jianxun Zhao, Peng Chen, Heng Liu, Xinwei Wang, Wanqiang Liu*, CoS2-MoS2-CNT composite modified separator with enhanced LiPS adsorption capacity for lithium-sulfur battery, Journal of Alloys and Compounds, 972 (2024) 172733.

[15]Xinwei Wang*, Jiayi Guo, Kangning Xu, Zeyang Li, Siyang Liu, Lianshan Sun, Jianxun Zhao, Heng Liu, Wanqiang Liu*, In situ self-assembled NiS2 nanoparticles on MXene nanosheets as multifunctional separators: Regulating shuttling effect and boosting redox reaction kinetics of lithium polysulfides, Applied Surface Science, 645 (2024) 158859.

 

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.


出版著作
刘万强,段潜,王立民.准晶材料储氢研究,国防工业出版社,2013.
获奖情况
2014年 吉林省自然科学学术成果奖二等奖(第一名)
2015年 吉林省自然科学学术成果奖三等奖(第一名)
2019年 吉林省自然科学三等奖(第一名)
社会兼职
1.中国稀土学会会员
2.中国氢能协会会员
版权所有:713贵宾会(中国·VIP认证)检测线路·Maigoo百科 地址:吉林省长春市卫星路7989 邮编:130022
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