深圳高等研究院


 
导师代码: 20493
导师姓名: 张东星
性    别:
特    称:
职    称: 副研究员
学    位: 哲学博士学位
属    性: 专职
电子邮件: zhangdongxing @ uestc.edu.cn

学术经历:   2021-03 - 特聘副研究员 电子科技大学
5G与智能制造协同技术
2018/03 -2021-02, 博士后 西安大略大学(UWO)
5G与智能制造协同技术
应用于5G通讯的频率选择表面/结构的3D打印技术
频率选择表面/结构的模拟及设计
3D打印功能材料和机械超材料。
2013/09 -2017/09 西安大略大学 (UWO), 工学博士,专业:机械与材料工程
2010/09 -2013/06 北京航空航天大学 (BUAA), 工学硕士 ,专业:航空宇航制造工程
2006/09 -2010/06 华中科技大学 (HUST), 工学学士 ,专业:材料成型及控制工程

个人简介:   张东星,电子科技大学副研究员。2017年于加拿大Western University获得博士学位,方向为先进智能制造。目前研究内容包括5G驱动下的智能制造,精准材料的智能设计/制备,生物医疗器械,3D打印无绳机器人以及微纳打印血管机器人等,在先进(智能)制造领域积累了丰富的科研成果。发表SCI论文20余篇,专利5项。相关研究成果发表于Natrure Communication,ACS App. Mat. Int., Nanotechnology, Journal of Materials Science, IEEE transactions系列等国际知名期刊。出版专著《5G赋能智能制造》。承担加拿大自然基金项目两项,项目金额15万加元。 研究方向包括: 先进智能制造技术,包括打印电子,工厂模拟及数字孪生技术; 3D打印技术及超材料研究; 3D打印无接触控制制动器/机器人; 基于双光子光刻技术的微纳3D打印技术。 课题组常年开放机械设计、数据挖掘、电子电器、信息通讯方向的博士后、博士、硕士招生。

科研项目:   2019/03 - 2021/03
A React-on-Demand (RoD) Process for Printed Electronics; MITACS Accelerate program ($ 110,000)
主持人
2018/03 -2019-02
3D printing of electrochemically driven point-of-care test (POCT) device for heavy metal ions detection, MITACS Accelerate program ($ 45,000)
主持人

研究成果:   论文
Zhang, D., Xiao, J., Qiu, Y., Yang, J., & Guo, Q. (2017). Initiator-integrated 3-D printing of magnetic object for remote controlling application. IEEE Transactions on Magnetics, 53(5), 1-9.
Zhang, D., Xiao, J., Guo, Q., & Yang, J. (2019). 3D-printed highly porous and reusable chitosan monoliths for Cu (II) removal. Journal of Materials Science, 54(8), 6728-6741.
Zhang, D., Xiao, J., Moorlag, C., Guo, Q., & Yang, J. (2017). Development of ultralight, super-elastic, hierarchical metallic meta-structures with i3DP technology. Nanotechnology, 28(45), 455708.
Zhang, D., Xiao, J., Yu, W., Guo, Q., & Yang, J. (2018). Hierarchical metal/polymer metamaterials of tunable negative Poisson’s ratio fabricated by initiator-integrated 3D printing (i3DP). Nanotechnology, 29(50), 505704.
Zhang, D., Yang, J., & Guo, Q., (2018) Printing technology and process study of flexible electronic devices based on a laser reverse printing method. Printed Circuits Information. 12, 40-45.
Zhang, D., Xiao, J., Bai, Y., Guo, Q., & Yang, J. (2020)Introducing Bioinspired Initiator into Resins for In-situ Repairing of 3D Printed Metallic Structures. ACS Appl Mater Interfaces, 12(43), 49073-49079.
Zhang, D., Gao, J., et, al. DRoD method for fabricating frequency selective engineering structures. (submitting).
Zhang, D., Guo, Q., & Yang, J. I3DP of lightweight, high compressive strength, metallic cellular materials and the strength-enhanced property”. (submitting)
Zhang, D., Xiao, J., Qiu, Y., Yang, J., & Guo, Q. 3D printing of mechanical metamaterials of dual negative Poisson's ratios. (proceeding) .
Zhang, D., Xiao, J., Qiu, Y., Yang, J., & Guo, Q. 3D printing of volumetric engineering frequency selective structures (EFSS). (proceeding)
Zhang, D., Xiao, J., Qiu, Y., Yang, J., & Guo, Q. Selective large-area fabrication of highly conductive metal-polymer porous structures for flexible electronics. (proceeding)
Cai G, Fu J, Zhang D (通讯作者), et al. A Novel Approach to Predict Wrinkling of Aluminum Alloy During Warm/Hot Sheet Hydroforming Based on an Improved Yoshida Buckling Test. Materials (Basel). 2020;13(5):1165.
Shen, T., Zhang, D., Huang, L., & Wang, J. (2016). An automatic-recovery inertial switch based on a gallium-indium metal droplet. Journal of Micromechanics and Microengineering, 26(11), 115016.
Bai, Y., Zhang, D., et al. A Study of Enzyme Activity Change due to Inkjet Printing for Biosensor Fabrication. (2021), ACS Biomaterials Science & Engineering,ACS Biomaterials Science & Engineering 7 (2), 787-793.
Fantino, E., Roppolo, I., Zhang, D., Xiao, J., Chiappone, A., Castellino, M., ... & Yang, J. (2018). 3D printing/interfacialpolymerization coupling for the fabrication of conductive hydrogel. Macromolecular Materials and Engineering, 303(4), 1700356.
Cai, X., Hu, M., Zhang, D., Hu, G., & Yang, J. (2018). Experimental Study on Tunable Electromagnetic Shielding by Microlattice Materials with Organized Microstructures. Advanced Engineering Materials, 20(7), 1700823.
Cai, G., Wu, C., & Zhang, D. (2018). Investigation on the effect of type of cooling on the properties of aluminum alloy during warm/hot hydromechanical deep drawing. Symmetry, 10(9), 362.
Li, X., Deng, S., Banis, M. N., Doyle-Davis, K., Zhang, D., Zhang, T., ... & Sun, X. (2019). Suppressing corrosion of aluminum foils via highly conductive graphene-like carbon coating in high-performance lithium-based batteries. ACS applied materials & interfaces, 11(36), 32826-32832.
Huo, H., Gao, J., Zhao, N., Zhang, D., Holmes, N., Li, X., ... & Sun, X. (2021). A Flexible Electron-blocking Interfacial Shield for Dendrite-free Solid Lithium Metal Batteries. Nature Communication.12 (1), 1-10
Cai, G., Lang, L., Liu, K., Alexandrov, S., Zhang, D., Yang, X., & Guo, C. (2015). Research on the effect of flow stress calculation on aluminum alloy sheet deformation behavior based on warm bulging test. Metals and Materials International, 21(2), 365-373.
专利:
CN107522827A, A kind of photocuring 3D printing photosensitive resin and its preparation method and application.
CN108934127A, A method for rapid fabrication of large area circuit based on desktop printing.
CN108882541A, A printing electronic method based on laser reverse printing.
In-situ repair method for surface metal coating of 3D printed antenna array (proceeding).
A direct 3D printing method for preparing functionally repairable super-hydrophobic porous membrane(proceeding).
书&章节:
5G赋能智能制造,人民邮电出版社,5G Enabled Intelligent Manufacturing. POSTS & TELECOM PRESS. (2020)

专业研究方向:  
专业名称 研究方向 招生类别
085500机械 51智能制造与装备 硕士
085500机械 53智能控制与工业互联网 硕士


学院列表
01  信息与通信工程学院
02  电子科学与工程学院
03  材料与能源学院
04  机械与电气工程学院
05  光电科学与工程学院
06  自动化工程学院
07  资源与环境学院
08  计算机科学与工程学院
09  信息与软件工程学院
10  航空航天学院
11  数学科学学院
12  物理学院
13  医学院
14  生命科学与技术学院
15  经济与管理学院
16  公共管理学院
17  外国语学院
18  马克思主义学院
21  基础与前沿研究院
22  通信抗干扰技术国家级重点实验室
23  电子科学技术研究院
28  深圳高等研究院