姓名:张子英 职称:副教授
所属学院:材料工程学院
研究方向:纳米能源材料的微电行为;金属材料及其焊件的腐蚀与防护
通讯地址:上海市松江区龙腾路333号行政楼1606
邮政编码:201620
电子信箱zzying@sues.edu.cn
个人简介2013年6毕业于复旦大学材料科学系物理电子学专业,获博士学位。2013年9月至今在威廉希尔足球网材料科学系任教。主要从事纳米能源材料的微电行为、人工晶体材料结构和物性的理论研究和计算模拟、金属结构材料及其焊件的腐蚀与防护等相关领域的研究工作。近年来先后在国内外专业刊物以第一作者或通讯作者身份发表被SCI收录论文20余篇,先后主持上海自然科学基金课题和横向课题各一项,参与国家自然科学基金4项。为上海工程技术大
学硕士生导师,并兼任《Corrosion Science》、《Electrochimica Acta》、《Journal of Alloys and Compounds》、《Materials and Design》和《Journal of Power Sources》等知名期刊审稿人。
主要代表性论文
[1]Ziying Zhang*, Pingping Xu, Huizhen Zhang, Ao Shen, Yiangqiang Zhao. Flexible Three-Dimensional Titanium-Dioxide-Based Hollow Nano-flower Arrays for Advanced Lithium-ion Battery Anodes. ACS Applied Energy Materials. 2 (2019) 5744-5752.
[2]Xiaoxiao Qi, Huizhen Zhang, Ziying Zhang*, Yiang Bian, Ao Shen, Pingping Xu, Yiangqiang Zhao,Yangqiang Zhao,Jiarui Jin. Subunits controlled synthesis of three-dimensional hierarchical flower-like a-Fe2O3 hollow spheres as high-performance anodes for lithium ion batteries. Applied Surface Science. 452 (2018) 174-180.
[3]Ziying Zhang*, Huizhen Zhang, Jun Hu, Xiaoxiao Qi, Yang Bian, Ao Shen, Pingping Xu,Yiangqiang Zhao. Microstructure evolution and mechanical properties of briefly heat-treated SAF 2507 super duplex stainless steel welds. Construction and Building Materials 168 (2018) 338-345.
[4]Ziying Zhang*, Hui Zhao, Huizhen Zhang, Jun Hu, Jiarui Jin, Microstructureevolution and pitting corrosion behavior of UNS S32750 super duplexstainless steel welds after short-time heat treatment. Corrosion Science. 121 (2017) 22–31.
[5]Ziying Zhang*, Jiarui Jin, Huizhen Zhang, Xiaoxiao Qi, Yang Bian, Hui Zhao. First-principles calculation of hydrogen adsorption and diffusion on Mn-doped Mg2Ni (010) surfaces. Applied Surface Science. 425 (2017) 148-155.
[6]Ziying Zhang*, Huizhen Zhang, Hui Zhao, Jin Li. Effect of prolonged thermal cycles on the pitting corrosion resistance of a newly developed LDX 2404 lean duplex stainless steel,Corrosion Science. 103(2016)189-195.
[7]Hui Zhao,Ziying Zhang*,Huizhen Zhang,Jun Hu,Jin Li,Effect of aging time on intergranular corrosion behavior of a newly developed LDX 2404 lean duplex stainless steel,Journal of Alloys and Compounds. 672(2016)147-154.
[8]Ziying Zhang, Huizhen Zhang, Hui Zhao, ZhishuiYu,Liang He, Jin Li.Prediction of the electronic structures, thermodynamic and mechanical properties in manganese doped magnesium-based alloys and their saturated hydrides based on density functional theory. Journal of Power Sources, 280 (2015) 147-154. [9]Ziying Zhang, Hui,Zhao, Huizhen Zhang, Zhishui Yu, Jun Hu, Liang He, Jin Li. Effect of aging time on intergranular corrosion behavior of a newly developed LDX 2404 lean duplex stainless steel . Corrosion Science, 93 (2015) 120-125. |
[10]Ziying Zhang, Zhiyu Wang, Yiming Jiang, Hua Tan, Dong Han, YanjunGuo, Jin Li. Microstructure evolution and pitting corrosion behavior in annealed UNS S 31803 duplex stainless steel welds. Corrosion Science, 62 (2012)42-50.
[11]Ziying Zhang,Huizhen Zhang , Liang He, Dong Han , Yiming Jiang, Jin Li. Microstructure Evolution in Aged UNS S82441 Duplex Stainless Steel. Steel Research International, 85(4) (2014) 640-644.
[13]Ziying Zhang, HuizhenZhang , Liang He, Dong Han , Yiming Jiang, Jin Li. Precipitation evolution in duplex stainless steel during isothermal aging at 700 degrees. Materials Science and Technology, 30(4) (2014) 451-457.
[14]Ziying Zhang, Dong Han, Yiming Jiang, Chong Shi, Jin Li. Microstructural evolution and pitting resistance of annealed lean duplex stainless steel UNS S32304. Nuclear Engineering and Design, 243 (2012)56–62.
[15]Ziying Zhang, Jianfeng Jia,Xing Hu,Delin Yang. Piezoelectric properties of [Bi0.5(Na0.75K0.25Li0.05)0.5] TiO3-Ba(Ti,Zr)O3 binary system ceramics. Journal of material Science.43 (2008)1501-1504.
[16]Li Cheng, Ziying Zhang*, Jianxin Shao. Electronic Structures and Optical Properties of the O Vacancy in ZnO. Acta. Phys.-Chim. sin.27 (2011)846-850.
[17]Ziying Zhang, Delin Yang,Yunhu Liu,Haibin Cao,Jianxin Shao,Qun Jing. Electronic Structures and Optical Properties of BaTiO3, Acta. Phys.-Chim. sin. 9 (2009) 1731-1736.