张鸣亮职务:
单位:电子科学与工程学院 电话: 出生年月: 邮箱:mingliangzhang@seu.edu.cn 学历:博士 地址: 职称:教授
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个人简介
张鸣亮,国家高层次人才青年学者。本科毕业于清华大学材料科学与工程系,后获得美国斯坦福大学材料科学与工程系博士学位。曾于美国宾夕法尼亚大学从事博士后研究,后转至美国英特尔公司先后从事芯片材料失效分析与先进芯片工艺研发工作,于2022年9月全职加入东南大学电子科学与工程学院。长期从事多功能纳米材料以及低成本微纳加工工艺的研发,以及其在电子、光学与生物器件上的应用。成果发表于Nature Nanotechnology, Nature Communications, Advanced Materials, Nano Letters, ACS Nano等国际期刊。
教育经历

2014         美国斯坦福大学材料科学与工程系, 获博士学位


2012         美国斯坦福大学材料科学与工程系, 获硕士学位


2007         清华大学, 材料科学与工程系, 获学士学位

工作经历

2010.6 - 2010.9        希捷半导体,美国                实习,位元图案介质高密度硬盘工艺研发

2014.4 - 2019.8        宾夕法尼亚大学,美国        博后,纳米晶粒自组装光学、光电器件研发

2019.9 - 2022.7        英特尔,美国                       材料分析与工艺工程师,先进制程低后端工艺研发

讲授课程
教学研究
出版物
研究领域或方向

1. 纳米晶粒自组装:控制纳米晶粒自组装的无机内核与表面配体,利用其作为原材料实现低成本、室温下光学与电子器件的制备;

2. 3D微纳加工:开发包括自折叠与3D微纳光刻等先进工艺,研发具有3D结构的纳米器件;

3. 智能纳米器件:探索磁控、光控以及化学引导下的纳米结构机械驱动机理,研发可重构的光学器件以及用于生物医疗的纳米机器人;

4. 光学超材料: 大面积制备具有高强度度光-物质作用的纳米结构超薄光学元器件,实现高效的入射光波前调制;

研究项目
研究成果

学术论文


[21]      Jiacen Guo, Ji-Young Kim, Mingliang Zhang, Haonan Wang, Aaron Stein, Christopher B. Murray, Nicholas A. Kotov, Cherie R. Kagan. Chemo- and thermomechanically configurable 3D optical metamaterials constructed from colloidal nanocrystal assemblies. ACS Nano. 2019, 14, 1427-1435.

[20]    Wenxiang Chen, Jiacen Guo, Qinghua Zhao, Prashanth Gopalan, Aaron T. Fafaman, Austin keller, Mingliang Zhang, Yaoting Wu, Christopher B. Murray, Cherie R. Kagan. Designing strong optical absorbers via continuous tuning of interparticle interaction in colloidal gold nanocrystal assemblies. ACS Nano. 2019, 13, 7493-7501.

[19]    Tianshuo Zhao, Nuri Oh, Davit Jishkariani, Mingliang Zhang, Han Wang, Na Li, Jennifer D. Lee, Chenjie Zeng, Manisha Muduli, Hak-Jong Choi, Dong Su, Christopher B. Murray, Cherie R. Kagan. General synthetic route to high-quality colloidal III-V semiconductor quantum dots based on pnictogen chlorides. J. Am. Chem. Soc. 2019, 141, 15145-15152.

[18]   Mingliang Zhang, Victor Pacheco-Peña, Yao Yu, Wenxiang Chen, Nicholas J. Greybush, Aaron Stein, Nader Engheta, Christopher B. Murray, Cherie R. Kagan. Nanoimprinted chiral plasmonic substrates with three-dimensional nanostructures. Nano Letters. 2018, 18, 7389-7394.

[17]     Wenxiang Chen, Wenjing Liu, Yijie Jiang, Mingliang Zhang, Naixin Song, Nicholas J. Greybush, Jiacen Guo, Anna K. Estep, Kevin T. Turner, Ritesh Agarwal, Cherie R. Kagan. Ultrasensitive, mechanically responsive optical metasurfaces via strain amplification. ACS Nano. 2018, 12, 10683-10692.     

[16]      Wenxiang Chen, Gaoxiang Wu, Mingliang Zhang, Nicholas J. Greybush, Jordan P. Howard-Jennings, Naixin Song, F. Scott Stinner, Shu Yang, Cherie R. Kagan. Angle-independent optical moisture sensors based on hydrogel-coated plasmonic lattice arrays. ACS Applied Nano Materials. 2018, 1, 1430-1437.

[15]     Mingliang Zhang, Jiacen Guo, Yao Yu, Yaoting Wu, Hongseok Yun, Davit Jishkariani, Wenxiang Chen, Nicholas J. Greybush, Christian Kübel, Aaron Stein, Christopher B. Murray, Cherie R. Kagan. 3D nanofabrication via chemo-mechanical transformation of nanocrystal/bulk heterostructures. Advanced Materials. 2018, 30, 1800233.

[14]    Qinghua Zhao, Tianshuo Zhao, Jiacen Guo, Wenxiang Chen, Mingliang Zhang, Cherie R. Kagan. The effect of dielectric environment on doping efficiency in colloidal PbSe nanostructures. ACS Nano. 2018, 12, 1313-1320.

[13]     Mingliang Zhang, Daniel J. Magagnosc, Iñigo Liberal, Yao Yu, Hongseok Yun, Haoran Yang, Yaoting Wu, Jiacen Guo, Wenxiang Chen, Young Shin, Aaron Stein, James M. Kikkawa, Nader Engheta, Daniel S. Gianola, Christopher B. Murray, Cherie R. Kagan. High-strength magnetically-switchable plasmonic nanorods assembled from a binary nanocrystal mixture. Nature Nanotechnology. 2017, 12, 228-232.

[12]    Wenxiang Chen, Mykhailo Tymchenko, Prashanth Gopalan, Xingchen Ye, Yaoting Wu, Mingliang Zhang, Christopher B. Murray, Andrea Alu, Cherie R. Kagan. Large-area nanoimprinted colloidal Au nanocrystal-based nanoantennas for ultrathin polarizing plasmonic metasurfaces. Nano Letters, 2015, 15, 5254-5260.

[11]      Mingliang Zhang, Nicolas Large, Ai Leen Koh, Yang Cao, Alejandro Manjavacas, Robert Sinclair, Peter Nordlander, Shan X. Wang. High-density 2D homo- and hetero- plasmonic dimers with universal sub-10-nm gaps. ACS Nano, 2015, 9, 9331-9339.

[10]      Mingliang Zhang, Daniel J. B. Bechstein, Robert J. Wilson, Shan X. Wang. Wafer-scale synthesis of monodisperse synthetic magnetic multilayer nanorods. Nano Letters, 2014, 14, 333-338.

[9]   Mingliang Zhang, Christopher M. Earhart, Chinchun Ooi, Robert J. Wilson, Mary Tang, Shan X. Wang. Functionalization of high-moment magnetic nanobeads for cell manipulation and separation. Nano Research, 2013, 6, 745-751.

[8]     Mingliang Zhang, Xing Xie, Mary Tang, Craig S. Criddle, Yi Cui, Shan X. Wang. Magnetically ultraresponsive nanoscavengers for next-generation water purification systems. Nature Communications, 2013, 4, 1866.

[7]      Jung-Sub Wi, Edward S. Barnard, Robert J. Wilson, Mingliang Zhang, Mary Tang, Mark L. Brongersma, Shan X. Wang. Sombrero-shaped plasmonic nanoparticles with molecular-level sensitivity and multifunctionality. ACS Nano, 2011, 5, 6449-6457.

[6]         Jung-Sub Wi, Sweta Sengupta, Robert J. Wilson, Mingliang Zhang, Mary Tang, Shan X. Wang. Raman-active two-tiered Ag nanoparticles with a concentric cavity. Small, 2011, 7, 3276-3280.

[5]        Wei Hu, Mingliang Zhang, Robert J. Wilson, Ai Leen Koh, Jung-Sub Wi, Mary Tang, Robert Sinclair, Shan X. Wang. Fabrication of planar, layered nanoparticles using tri-layer resist templates. Nanotechnology, 2011, 22, 185302.

[4]     Mingliang Zhang, Wei Hu, Christopher M. Earhart, Mary Tang, Robert J. Wilson, Shan X. Wang. Silane-based functionalization of synthetic antiferromagnetic nanoparticles for biomedical applications. Journal of Applied Physics, 2010, 107, 09B325.

[3]       Marco Donolato, Marco Gobbi, Paolo Vavassori, Matteo Cantoni, Vitali Metlushko, Bojan Ilic, Mingliang Zhang, Shan X. Wang, Mikkel F. Hansen, Riccardo Bertacco. Detection of a single synthetic antiferromagnetic nanoparticle with an AMR nanostructure: comparison between simulations and experiments. Journal of Physics: Conference Series, 2010, 200, 122001.

[2]      Marco Donolato, Marco Gobbi, Paolo Vavassori, Marco Leone, Matteo Cantoni, Vitali Metlushko, Bojan Ilic, Mingliang Zhang, Shan X. Wang, Riccardo Bertacco. Nanosized corners for trapping and detecting magnetic nanoparticles. Nanotechnology, 2009, 20, 385501.

[1]       Nathan Klejwa, R. Misra, J. Provine, S. J. Klejwa, Mingliang Zhang, Shan X. Wang, Roger T. Howe. Laser-printed magnetic-polymer microstructures. Transducers, 2009, 865-868.


专利

[1]      Shan X. Wang, Mingliang Zhang, Craig S. Criddle, Xing Xie. Magnetically separable synthetic nanoparticles for water treatment. US Patent Application No. 14/032,033.

学术兼职
团队介绍
招生情况
毕业生介绍