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学科专业名称
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材料物理与化学,材料科学与工程
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学 术 职 衔
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博士生导师/硕士生导师
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导 师 姓 名
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张勇
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所获最高学位及单位
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博士,中国科学院沈阳金属研究所
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职 称
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教授
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工 作 部 门
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材料科学与工程学院
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联 系 电 话
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电 子 邮 箱
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zhangyong0411@126.com
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研 究 方 向
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新能源电池、智能纳米材料、第一性原理计算
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学习及工作经历
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1995.9~1999.7 学士,河北工业大学,材料科学与工程学院
1999.9~2002.9 硕士,河北工业大学,材料科学与工程学院
2002.9~2007.12 博士,中国科学院,沈阳金属研究所
2007.01~2016.11 讲师,大连交通大学,材料科学与工程学院
2016.11~2023.12 副教授,大连交通大学,材料科学与工程学院
2024.01~ 至今 教授,大连交通大学,材料科学与工程学院
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进修及访学经历
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2009.01~2009.12 日本东北大学,博士后
2017.08~2018.08 美国北德克萨斯大学,国家公派访问学者
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承担科研项目情况
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1、低碳制氢新材料及新过程,辽宁滨海实验室科技攻关子课题,50万,主持。
2、超薄镍铁纳米催化剂的低温合成及其催化机制研究,2022年辽宁省教育厅项目,5万,主持。
3、无人机***电池系统,军委科技委国家重大专项,300万,排名第六。
4、功能梯度一体式气体扩散层制备技术,大连市科技创新基金,300万,排名第二。
5、吉帕钢应变疲劳及氢脆敏感性研究,中国第一汽车股份有限公司,33.4万,主持。
6、铝镁合金应变疲劳技术采购,中国第一汽车股份有限公司,54.6万,主持。
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申请专利情况
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已授权专利:
1、赵红,张勇,苏志朋,一种基于形状记忆效应的智能化锂硫电池,发明专利,专利号:ZL 2021 1
0219449.7
2、赵红,张勇,张旭涛,一种基于形状记忆效应的智能化锂硫电池,发明专利,专利号:ZL 2022 1
0255779.6
3、赵红,张勇,武梓云,一种纳米台阶状金属催化剂的低温热处理制备方法,发明专利,专利号:ZL 2022 1
0387422.3
4、赵红,张勇,李康,一种基于形状记忆弹簧与磁吸触头的电池低温加热开关,实用新型专利,专利号:ZL 2021
23146886.5
5、赵红,张勇,一种具有低温智能加热功能的锂离子电池加热装置,实用新型专利,专利号:ZL 2021
20435935.8
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近五年发表论文、著作情况
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1. 1、Zhu Yan,
Zhang Xue-ying, Zhang Yong*, Zhou Guan-yu, Zhao Hong*, Ultrathin
zigzag-surface copper nanowire assembled hierarchical microspheres to enhance
oxygen reduction catalysis. Chem. Commun. 2024,60: 6635-6638.
2. 2、Zhang
Yong, Song Shu-qin, Gao Yong, Liu
Tian-fu, Zhao Hong*, Lithium film with abundant stepped structures: a
promising route for homogeneous Li ion deposition to conquer lithium
dendrite. J. Energy Chem. 2022, 72: 166-175.
2. 3、Li Ze-guang (共同第一作者), Zhang Yong (共同第一作者), Yu Hong-quan, Zhao Hong*, Low temperature growth of
two-dimensional (2D) Cu/Cu2O nanosheets under ice/water mixing environment.
Ceramics International 2022, 48: 4066-4073.
3. 4、Zhang Xue-ying, Zhang Yong*, Gao Yong,
Zhao Hong*, Room temperature solid-state deformation induced high-density
lithium grain boundaries to enhance the cycling stability of lithium
batteries. Chemical Communications 2023, 59: 13591-13594.
4. 5、Yu Dan-dan, Zhang Yong*, Liu Fang, Li
Ze-guang, Zhao Hong*, Vapor expansion growth of core–shell Cu-O-C catalysts
to boost low temperature oxygen reduction catalysis. J. Electroanalytical
Chem. 2023, 930: 117147.
5. 6、Liu Fang, Zhang Yong*, Tao Hua-long, One-step
compressive growth of two-dimensional iron carbide and its bond evolution
analysis. J. Phys. Chem. Solid 2020, 143:109419.
6. Yu
Dan-dan, Zhang Yong*, Yu Hong-quan, Zhao Hong*, Pt seeding
growth of directional coral-like NiO/CoO/Pt catalysts under low temperature
electric field. J. Cryst Growth, 2022, 600: 126901.
7. 7、Liu Bin, Zhang Yong*, Yu Hong-quan, Zhao
Hong*, Large-scale growth of isolated Fe-Ni oxides nanocatalysts to boost low
temperature oxygen catalysis. J. Cryst Growth, 2022, 590: 126698.
8. 8、Yu Dan-dan, Zhang Yong*, Yu Hong-quan,
Zhao Hong*, Low temperature synthesis of NiO/CoO nanostructures to enhance
their low temperature oxygen reduction catalysis. Micron, 2022, 161: 103326.
9. 9、Zhang Yong, Xia
Zhenhai*, Liu Fang, Qin Zuo-xiang, Lu Xing, Controllable growth of
two-dimensional iron carbide in steels under accumulation deformation. Micron
2020, 132: 102794.
10. 10、 Zhang Y*, Liu F. Hydrothermal conversion of
graphite to carbon nanotubes (CNTs) induced by bubbles collapse. J Phys Chem
Solid, 2016, 98: 1-9. (cited 11 times)
11. 11、Zhang Y*, Liu F. Laser induced domino
exfoliation of graphite to graphene in spheroidal graphite cast iron. Surf
Coat Technol, 2016, 285: 235-241. (cited 5 times)
12. 12、Zhang Y*, Liu F. End
to end assembly of CaO and ZnO nanosheets to propeller- shaped architectures
by orientation attachment approaches. J Cryst Growth, 2015, 420:
94-100. (cited 8 times)
13. 13、Zhang Yong*, Liu
Fang, Zhang Zhihua. Synthesis
of heterostructured helical carbon nanotubes by iron-catalyzed ethanol
decomposition. Micron, 2011, 42(6): 547-552. (cited 22 times)
14. 14、Liu Fang, Zhang Yong*. Substrate-free synthesis
of large area, continuous multi-layer graphene film. Carbon, 2010, 48(9):
2394-2400. (cited 36 times)
15. 15、Liu Fang, Zhang Yong*. In-situ growth of carbon
nanotubes from Ni-based coatings and their wear properties. Diamond and
Related Materials, 2012(5): 144-154. (cited 7 times)
16. 16、Liu Fang, Zhang Yong*. Hydrothermal
growth of flower-like CaO for biodiesel production. Ceramics
International, 2012, 38(4): 3473-3482. (cited 12 times)
17. 17、Liu Fang, Zhang Yong*. Controllable
growth of “multi-level tower” ZnO for biodiesel production. Ceramics
International, 2011, 37(8): 3193-3202. (cited 18 times)
18. 18、Liu Fang, Liu Changsheng, Chen Suiyuan, Tao Xingqi, Zhang
Yong*. Laser cladding Ni-Co duplex coating on copper substrate. Optics
and Lasers in Engineering, 2010, 48(7-8): 792–799. (cited 55 times)
19. 19、Zhang Hongli, Zhang Yong, Zhang Xugang, Li
Feng, Liu Chang, Tan Jun, Cheng Huiming*. Urich-like nano-micro hybrid anode
materials for lithium ion batteries. Carbon, 2006, 44(13): 2778-2784. (cited
65 times)
20. 20、Zhang Yong, Zhang
Xugang, Zhang Hongli, Zhao Zhigang, Li Feng, Liu Chang, Cheng Huiming*.
Composite anode material of silicon/graphite/carbon nanotubes for Li-ion
batteries. Electrochimica Acta, 2006, 51(23): 4994-5000. (cited
306 times)
21. 21、Zhang Y*, Liu F, Zhang WZ. Growth in
solution of hooked Ni-Fe fibers by oriented rotation and attachment
approaches. Int J Miner Metall Mater, 2016, 23(4): 466-473.
22. 22、Zhang Yong*, Liu
Fang. Morphology controllable growth of CaO/amorphous carbon ropes by a
hydrothermal approach. Int J Miner Metall Mater, 2013, 20(2): 187-195.
23. 23、Liu Fang*, Zhang Yong. Hydrothermal growth of
Ni-based coatings on copper substrate. Int J Miner Metall Mater, 2012,
19(3): 259-265.
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获奖及个人荣誉
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1、新能源电池高性能电极材料,辽宁省自然科学二等奖(排名第三),2017年
2、大连市高端人才,2020年
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社会兼职情况
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无
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指导研究生情况
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已指导毕业研究生人数
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博士:0,硕士生:8
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正在指导研究生人数
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博士:3,硕士生:6
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所指导研究生获奖情况
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无
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承担研究生课程名称
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无
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