复旦大学材料科学系梅永丰

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梅永丰，复旦大学材料科学系教授、博导。1999年和2002年于南京大学物理学系分别获得学士学位和硕士学位，2005年于香港城市大学物理与材料科学系获得理学博士学位，2005-2007年在德国斯图加特马克思普朗克协会固态研究所担任博士后，2007-2010年在德国德累斯顿莱布尼茨协会固态与材料研究所担任研究员和课题组长，2010年开始担任复旦大学材料科学系教授、博导。先后获得上海市浦江人才（2011年）、教育部新世纪优秀人才（2012年）、上海市曙光学者（2012年）和国家优秀青年科学基金（2013年）。目前研究方向为新型无机纳米薄膜材料研究，近几年将纳米薄膜材料运用到光学微腔，光流体探测，微纳光电效应，微纳机器人学，柔性无机电子学等方面开展工作。在Chem. Soc. Rev.、Phys. Rev. Lett.、Adv. Mater.、Nano Lett.、Small等学术期刊上已发表SCI论文140多篇，他引超过2000次，担任Nanotechnology等国际学术杂志客座编辑以及多个国际学术会议主席。

梅永丰教授
课题组主页：http://mse.fudan.edu.cn/nanomembrane/

地址：邯郸校区光华楼东主楼615室
电话：021-65643615
Email：yfm(AT)fudan.edu.cn

研究方向
无机纳米薄膜与超薄膜研究
柔性无机光电功能材料研究
微纳光电与光学材料、器件及其集成化研究

教育和工作
2010-至今，复旦大学材料科学系，教授，博导
2007-2010，德国莱布尼茨固态与材料研究所(IFW Dresden)，课题组组长，研究员
2005-2007，德国马克思普朗克固态研究所(MPI-FKF)，博士后
2002-2005，香港城市大学物理与材料科学系，理学博士
1999-2002，南京大学物理学系，硕士，光学与光电子
1995-1999，南京大学物理学系，本科，微电子与固态电子学
典型论文 详见课题组主页：http://mse.fudan.edu.cn/nanomembrane/

代表性论文编辑
1. P. Feng, I. M?nch, G. S. Huang, S. Harazim, E. J. Smith, Y. F. Mei*,O. G. Schmidt, Local-Illuminated Ultrathin Silicon Nanomembranes with Photovoltaic Effect and Negative Transconductance, Advanced Materials (2010). (in press)
2. A. A. Solovev, Y. F. Mei*, O. G. Schmidt, Catalytic Micro Strider at the Air-Liquid Interface, Advanced Materials (2010). (in press)
3. A. A. Solovev, S. Sanchez*, M. Pumera, Y. F. Mei*, O. G. Schmidt, Magnetic Control of Catalytic Microbots for the Delivery and Assembly of Microobjects, Advanced Functional Materials (2010). (in press)
4. Y. F. Mei,* S. Kiravittaya, S. Harazim, O. G. Schmidt, Principles and Applications of Micro- and Nanoscale Wrinkles, Materials Science & Engineering R: Reports (2010). (Invited Review; in press)
5. E. J. Smith,* Z. Liu, Y. F. Mei,* O. G. Schmidt, Combined surface plasmon and classical waveguiding through metamaterial fiber design, Nano Letters 10, 1 (2010). (Cover; highlighted in Nature Photonics)
6. P. Feng,* I. M?nch, S. Harazim, G. Huang, Y. F. Mei,* O. G. Schmidt, Giant Persistent Photoconductivity in Rough Silicon Nanomembranes, Nano Letters 9, 3453 (2009).
7. A. A. Solovev, Y. F. Mei,* et al. Catalytic Microtubular Jet Engines Self-propelled by Accumulated Gas Bubbles, Small 5, 1688-1692 (2009).? (Cover)
8. E. Smith,* Z. Liu, Y. F. Mei,* O. G. Schmidt, System investigation of a rolled-up metamaterial optical hyperlens structure, Applied Physics Letters 95, 083104 (2009); “Erratum” in 96, 019902 (2010).
9. V. A. Bola?os Qui?ones, G. S. Huang, J. D. Plumhof, S. Kiravittaya, A. Rastelli, Y. F. Mei,* O. G. Schmidt, Optical Resonance Tuning and Polarization of Thin-Walled Tubular Microcavities, Optics Letters 34, 2345–2347 (2009).
10. Y. F. Mei,* et al. Fabrication, self-assembly, and properties of ultra-thin AlN/GaN porous crystalline nanomembranes: tubes, spirals, and curved sheets, ACS Nano 3, 1663 (2009). (Cover)
11. G. S. Huang,* Y. F. Mei, et al. Optical properties of rolled-up tubular microcavities from shaped nanomembranes, Applied Physics Letters 94: 141901 (2009). (Cover)
12. G. S. Huang,* Y. F. Mei,* et al. Rolled-up transparent microtubes as two-dimensionally confined culture scaffolds of individual yeast cells, Lab on a Chip,? 9: 263 (2009).
13. Y. F. Mei,* et al.Versatile approach for integrative and functionalized tubes by strain engineering of nanomembranes on polymers, Advanced Materials, 20: 4085 (2008). (Cover)
14. Y.-F. Chen,* Y. F. Mei,* et al. Towards Flexible Magnetoelectronics: Buffer-Enhanced and Mechanically Tunable GMR of Co/Cu Multilayers on Plastic Substrates, Advanced Materials, 20: 3224-3228 (2008).
15. A. Malachias, Y. F. Mei,* et al. Wrinkled-up Nanochannel Networks: Long-Range Ordering, Scalability, and X-ray Investigation, ACS Nano, 2: 1715-1721 (2008). (Cover)
16. Y. F. Mei,* et al. Semiconductor sub-micro-/ nanochannel networks by deterministic layer wrinkling, Advanced Materials, 19(16): 2124-2128 (2007).
17. Y. F. Mei,* et al. Optical properties of a wrinkled nanomembrane with embedded quantum well, Nano Letters, 7(6): 1676-1679 (2007).
18. Y. F. Mei,* G et al.Visible cathodoluminescence of 4 angstrom single-walled carbon nanotubes, Applied Physics Letters, 87, 213114 (2005).
19. Y. F. Mei,* et al. Synthesis and optical properties of germanium nanorod array fabricated on porous anodic alumina and Si-based templates, Applied Physics Letters, 86, 21111 (2005).
20. Y. F. Mei, X. L. Wu,* et al. Formation mechanism of alumina nanotube array, Physical Letters A, 309, 109-113 (2003).
21. X. L. Wu,* Y. F. Mei, et al. Spherical growth and surface-quasifree vibrations of Si nanocrystallites in Er-doped Si nanostructures,? Physical Review Letters, vol. 86, 3000-3003 (2001).