张彬

姓名

张彬

出生年月

1991.01.29

政治面貌

群众

民族

职称

学历

博士

学位

联系方式

18678209581

电子邮箱

zhangbin911215@126.com

主要学习（工作）经历

2020.8-至今 山东理工大学 化学化工学院 讲师

2016.9 – 2020.7 大连理工大学材料学 工学博士

2013.9 - 2016.3 沈阳工业大学 凝聚态物理 理学硕士

2009.9 - 2013.6 枣庄学院 化学工程与工艺 工学学士

主要研究方向

1. 光催化降解有机污染物研究

2. [2] 高熵合金的电磁波吸收性能研究

主讲课程

无机化学B、无机合成

荣誉奖励

荣誉类：校级优秀研究生；优秀团员称号；大连市优秀博士毕业生；大连理工大学优秀博士毕业生

奖励类：硕士期间获国家奖学金、学业奖学金各1次；博士期间获沈鼓奖学金1次，二等学业奖学金4次。次

科研项目

论著专利

[1]Guimei Shi(导师一作), Bin Zhang, Xinxin Xu, Yanhong Fu.Graphene oxide coated coordination polymer nanobeltcomposite material: a new type of visible light active and highly efficient photocatalyst for Cr(VI)reduction.DaltonTransactions2015, 44, 11155-11164. (二区, IF=4.177）

[2]Guimei Shi(导师一作), Bin Zhang, Xiaolei Wang, Yanhong Fu.Enhanced microwave absorption properties of coredouble-shell type Fe@C@BaTiO3nanocapsules.Journal ofAlloysand Compounds2016, 655, 130-137. (二 区top,IF=4.175）

[3]]Bin Zhang, YupingDuan, Yulong Cui, Guojia Ma, Tongmin Wang, Xinglong Dong.Improving electromagneticproperties of FeCoNiSi0.4Al0.4 high entropy alloy powders via their tunable aspect ratio and elementaluniformity.Materials& Design2018, 149, 173-183.(二区top, IF=5.770）

[4]Bin Zhang, YupingDuan, Xin Wen, Guojia Ma, Tongmin Wang, Xinglong Dong,Haifeng Zhang, NanJia.FeCoNiSixAl0.4 high entropy alloy powders with dual-phase microstructure: improving microwave absorbingproperties via controlling phase transition.Journal ofAlloysand Compounds 2019, 790, 179-188. (二 区top,IF=4.175）

[5]Bin Zhang, YupingDuan, Xuan Yang, Guojia Ma, Tongmin Wang, Xinglong Dong.Tunning microwave absorbingproperties based on FeCoNiSi0.4Al0.4 composition: linear dependence in crystallinity of powders and phase proportionof milling precursor.Intermetallics,2020, 117, 106678.(二区, IF=3.353）

[6]Bin Zhang, YupingDuan, Yulong Cui, Guojia Ma, Tongmin Wang, Xinglong Dong. A new mechanism for improvingelectromagnetic properties based on tunable crystallographic structures of FeCoNiSixAl0.4 high entropy alloypowders.RSC Advance2018, 8, 14936-14946. (三区, IF=3.049）

[7]Bin Zhang, YupingDuan, Xin Wen, Guojia Ma, Tongmin Wang, Xinglong Dong,Haifeng Zhang, Nan Jia. Magnetictransformation of Mn from anti-ferromagnetism to ferromagnetism in FeCoNiZMnx (Z = Si, Al, Sn, Ge) high entropyalloys. (under revi

[8]YupingDuan, Yulong Cui, Bin Zhang, Guojia Ma, Tongmin Wang. A novel microwave absorber of FeCoNiCuAl high-entropy alloy powders: Adjusting electromagnetic performance by ball milling time and annealing.JournalofAlloysand Compounds 2019, 773,194-201.

[9]-YupingDuan, Xin Wen, Bin Zhang, Guojia Ma, Tongmin Wang. Optimizing the electromagnetic properties of theFeCoNiAlCrx high entropy alloy powders by composition adjustment and annealiMagnetism and Magnetic Materials 2020, 497, 165947。

[10]Huifang Pang,YupingDuan, Jia Liu, Bin Zhang.Low-temperature synthesis and microwave absorbing properties ofMn3O4–graphene nanocomposite. Journal of Materials Research 2018,33,23.

[11]Li Zhang,YuanliangZhou,Bin Zhang, GuimeiShi,Shah Asif, MuhammadJavid,DongxingWang, Xinglong Dong.Electromagnetic wave absorption of carbon-coated nickel nanocapsules/paraffin composites. Materials Review 2016,30, 31-36

[12]张彬,段玉平.相结构对FeCoNiSi0.4Al0.4高熵合金粉电磁波吸收性能影响.中国材料大会.银川2017.(会议摘要录用,并作口头报告）

[13]张彬,段玉平.长径比及元素均匀性对FeCoNiSi0.4Al0.4高熵合金粉的电磁波吸收性能影响.中国有色金属学会青年科技论坛.长沙2017. (会议摘要录用, 并作口头报告,墙报获得优秀奖）

[14]张彬,段玉平.球磨前驱体相结构对FeCoNiSiAl系高熵合金粉微结构及电磁波吸收性能影响研究.中国材料大会.厦门 2018. (会议摘要录用, 并作口头报告）

[15]张彬,段玉平.各诱导元素对Mn元素磁性转化的能力转化.第六届磁性材料青年学术研讨会.沈阳 2018.（会议摘要录用）