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光电仪器研究所(按姓名拼音排序)

徐可米

性别:

职称:准聘教授

学历:博士研究生

所在学科:仪器科学与技术

研究方向:激光制造与检测、光量子器件

电子邮件:xukemi@bit.edu.cn

教师介绍

    一、个人简介

            徐可米,女,1984年1月出生于吉林省公主岭市,博士,2014年-2020年留学于澳大利亚,获得2014年澳大利亚新南威尔士大学全球人才计划博士后董事长奖学金,2020年入职12BET,2020年聘为博导,2022年入选国家级青年人才计划,2022年提升为准聘教授。长期在量子光学仪器、光电器件、微纳加工与测量、无人驾驶车载激 光 雷 达等领域从事教学和科研工作,主要研究方向包括超快激光微纳加工、超快激光加工监测一体化 、极限光电探测和单光子成像等方面。主持2项省部级以上项目,包括国家级青年人才计划项目、山东省重大科技创新工程等。在Nano Letter、ACS Nano、Small等国际及国内期刊上发表SCI论文30余篇,SCI引用1400余次。因在激 光 雷 达 产品的重大突破获得澳大利亚Braja年度勇士奖。主讲纳米显微学导论课程。在读博士生3名,硕士生5名。

    二、教育经历

    (1) 2010-09 至 2013-06, 吉林大学, 物理电子学, 博士

    (2) 2008-09 至 2010-06, 吉林大学, 微电子与固体电子学, 硕士

    (3) 2003-09 至 2007-06, 吉林大学, 电子科学与技术, 学士

    三、工作经历

    (1) 2007-08 至 2008-07,团中央"老员工志愿服务西部计划"支教教师;

    (2) 2014-03 至 2018-04, 澳大利亚新南威尔士大学,博士后研究员;

    (3) 2018-04 至 2020-09,澳大利亚BARAJA,光学工程师;

    (4) 2020-11.-至今,12BET注册,教师。

    四、研究领域

    1.量子光学仪器;

    2.超快激光加工检测一体化;

    3.光学精密测量;

    4.单光子成像;

    五、代表性学术成果

    【论文】

    (1) In- situ high-precision surface topographic and Raman mapping by divided-aperture differential confocal Raman microscopy. Applied Surface Science, Vol.546, p149061, 2021.4.

    (2) Ultrashallow Junction Electrodes in Low-Loss Silicon Microring Resonators, Phys. Rev. Applied 15, 044014 (2021)

    (3) Light-Driven Magnetic Encoding for Hybrid Magnetic Micromachines, Nano Letters, Vol.21, No.4, p1628, 2021.2.

    (4) Competition between subwavelength and deep- subwavelength structures ablated by ultrashort laser pulses, Optica, Vol.4, No.6, p637, 2017.6.

    (5) Surface-plasmon-mediated programmable optical nanofabrication of an oriented silver nanoplate, ACS Nano, Vol.8, No.7, p 6682, 2014.6.

    (6) Flexible nanowiring of metal on nonplanar substrates by femtosecond-laser-induced electroless plating, Small, Vol.6, No.16, p1762, 2010.8.

    (7) Localized flexible integration of high-efficiency surface enhanced Raman scattering (SERS) monitors into microfluidic channels, Lab On a Chip, Vol.11, No.19, p3347, 2011.8.

    (8) Fabrication and multifunction integration of microfluidic chips by femtosecond laser direct writing, Lab on a Chip, Vol.13, No.9, p1677, 2013.2.

    (9) Laser patterning of conductive gold micronanostructures from nanodots, Nanoscale, Vol.4, No.22, p6955, 2012.8.

    (10) On-chip fabrication of silver microflower arrays as a catalytic microreactor for allowing in-situ SERS monitoring, Chemical Communications, Vol.48, No.11, p1680, 2011.12.

    (11) Silver coated rose petal: a green, facile, low-cost and sustainable fabrication of SERS substrate with unique superhydrophobicity and high efficiency, Advanced Optical Materials, Vol.1, No.1, p56, 2013.1.

    (12) On-chip catalytic microreactors for modern catalysis research, ChemCatChem, Vol.5, No.8, p2091, 2013.8.

    (13) Programmable assembly of CdTe quantum dots into microstructures by femtosecond laser direct writing, Journal of Materials Chemistry C, Vol.1, No.31, p4699, 2013.6.

    (14) Fabrication of microelectrodes based on precursor doped with metal seeds by femtosecond laser direct writing, Optics Letters, Vol.39, No.3, p434, 2014.2.

    (15) A SERS-active microfluidic device with tunable surface plasmon resonances, Electrophoresis, Vol.32, No.23, p3378, 2011.11.

    更新时间:2022年08月


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