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MEET BAOSHAN GUO

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BIO

  • 2015.10 ~ Now    ImPACT Researcher, Tokyo University, Japan

  • 2013.3 ~ 2015.10  Associate Professor, Tianjin University, China

  • 2011.9 ~ 2013.3   Post Doc in Department of Electrical and Electronic Engineering, Hong Kong University, Hong Kong, China

  • 2010.5 ~ 2011.8   Assistant Professor, Beijing Institute of Technology, China

  • 2009.4 ~ 2010.4   Post Doc in Department of Chemistry, University of Toronto, Canada 

 

  • 2004.9 ~ 2009.3   PhD. in Optoelectronics, Institute of Semiconductors, Chinese Academy of Sciences, Beijing, China

  • 2000.9 ~ 2004.7   B.S. in Materials Physics, Fudan University, Shanghai, China 

Home: About Me

LITERARY ACCOMPLISHMENTS

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TIME-STRETCH MICROSCOPY

Ultrafast real-time spectroscopic and imaging measurements based on optical time-stretch and amplified dispersive Fourier transformation (ADFT) like Serial Time Encoded Amplified Microscopy (STEAM) and its application on screening of biofuel cells and cancer cells.

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CARS

Plasmonic enhanced hyperspectral Coherent Anti-Stokes Raman Scattering microscopy (CARS), and its application in biophotonics.
Ultra-fast Laser micro/nano fabrication.

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PLASMONIC DEVICES

Plasmonic very-small-aperture lasers (PVSALs), a kind of novel optical detecting and recording devices, with a sub-wavelength optical spot at far-field, which was reported as a research highlights by Nature Photonics.
And other related plasmonic devices.

Teenage Students Raising Hands

PUBLICATIONS

  1. Baoshan Guo, Cheng Lei, Hirofumi Kobayashi, Takuro Ito, Yalikun Yaxiaer, Yiyue Jiang, Yo Tanaka, Yasuyuki Ozeki, Keisuke Goda, “High-throughput, label-free, single-cell, microalgal lipid screening by machine-learning-equipped optofluidic time-stretch quantitative phase microscopy,” Cytometry Part A (accepted).

  2. Baoshan Guo, Cheng Lei, Takuro Ito, Yiyue Jiang, Yasuyuki Ozeki, Keisuke Goda, “Optofluidic time-stretch quantitative phase microscopy for high-throughput label-free single-cell screening,” SPIE Photonics West (2017), Paper 10074-1 (Invited Paper).

  3. Baoshan Guo, Cheng Lei, Takuro Ito, Yalikun Yaxiaer, Hirofumi Kobayashi, Yiyue Jiang, Yo Tanaka, Yasuyuki Ozeki, Keisuke Goda, “High-throughput label-free screening of euglena gracilis with optofluidic time-stretch quantitative phase microscopy,” Proc. SPIE 10076, High-Speed Biomedical Imaging and Spectroscopy: Toward Big Data Instrumentation and Management II, 100760M (February 22, 2017); doi: 10.1117/12.2251157

  4. Baoshan Guo, Cheng Lei, Takuro Ito, Yiyue Jiang, Yasuyuki Ozeki, Keisuke Goda, “High-throughput Accurate Single-cell Screening of Euglena gracilis with Fluorescence-assisted Optofluidic Time-stretch Microscopy,” Plos one, 11(11), e0166216 (2016).

  5. Cheng Lei, Baoshan Guo, Zhenzhou Cheng, and Keisuke Goda,“Optical time-stretch imaging: Principles and applications,”Applied Physics Reviews, 3, 011102 (2016).

  6. Ming Li, Hector Muñoz, Alexander Schmidt, Baoshan Guo, Cheng Lei, Keisuke Goda, Dino Di Carlo, “Inertial focusing of ellipsoid Euglena gracilis cells in a stepped microchannel,” Lab On a Chip, 16, 4458 (2016)

  7. Baoshan Guo, Cheng Lei, Takuro Ito, Yiyue Jiang, Yasuyuki Ozeki, Keisuke Goda, “High-throughput optofluidic profiling of Euglena gracilis with morphological and chemical specificity,” Proc. SPIE 10026, Real-time Photonic Measurements, Data Management, and Processing II, 100260L (2016). doi:10.1117/12.2245836 (Invited paper)

  8. Baoshan Guo, “Plasmonic modulated very-small-aperture semiconductor laser,” (2016), ISBN-13: 978-3-639-73520-8, ISBN-10: 363973520X, EAN: 9783639735208

  9. Wenbo Wang, Baoshan Guo*, “Control of the Propagation Distance of Terahertz Wave by Waveguide Grating,” Acta Photonica Sinica, 2 (2016).

  10. Baoshan Guo, Wei Shi, Jianquan Yao. “Slowing and trapping THz waves system based on plasmonic graded period grating,” Journal of Optics, 45(1), 50-57 (2015).

  11. Baoshan Guo, Wei Shi, Jianquan Yao. “Mechanisms of THz trapping devices based on plasmonic grating,” Conference on Lasers and Electro-Optics (CLEO: 2014).

  12. Xu, Jingjiang, Guo, Baoshan, Wong, Kenneth K. Y., Tsia, Kevin K. “Broadband hyperspectral coherent anti-Stokes Raman scattering microscopy for stain-free histological imaging with principal component analysis,” Proceedings of SPIE, 8948, 89480R (2014)

  13. Baoshan Guo,Wei Shi, Jianquan Yao. “Propagation speed calculation of a plasmonic THz wave trapping system[J],” Chinese Optics Letters 12, s1: S12301 (2014).

  14. Baoshan Guo, Wei Shi, Jianquan Yao. “Real propagation speed of the ultraslow plasmonic THz waveguide,” Appl. Phys. B-Lasers and Optics 340, 5550 (2013).

  15. Baoshan Guo, Qiaoqiang Gan, Guofeng Song, Jianxia Gao, Lianghui Chen. “Numerical Study of a High-Resolution Far-Field Scanning Optical Microscope via a Suface Plasmon-Modulated Light Source,” J. Lightwave Technol. 25, 830 (2007).  

  16. Baoshan Guo, Guofeng Song, Lianghui Chen. “Plasmonic very-small-aperture lasers,” Appl. Phys. Lett. 91, 021103 (2007).

  17. Baoshan Guo, Guofeng Song, Lianghui Chen. “Mechanism of enhancing output power of plasmonic very-small-aperture lasers,” Appl. Phys. B-Lasers and Optics 90 (2008).

  18. Baoshan Guo, Guofeng Song, Lianghui Chen, "Enhancement of the far-field output power and the beam properties of plasmonic very small aperture lasers", J. Opt. A: Pure Appl. Opt. 10 (2008).

  19. Baoshan Guo, Guofeng Song, Lianghui Chen. “Numerical study of sub-wavelength plasmonic waveguide,” Optics Communications 281, 1123 (2008).

  20. Baoshan Guo, Guofeng Song, Lianghui Chen. "Resonant Enhanced Wave-filter and Waveguide via Surface Plasmons ", IEEE Transactions on Nanotechnology 8, 408 (2009).

  21. Baoshan Guo, Guofeng Song, Lianghui Chen. "Numerical study of surface plasmons optical antenna and its array ", Chinese Journal of Semiconductors 29, 45 (2008).

  22. Qiaoqiang Gan, Baoshan Guo, Guofeng Song, Lianghui Chen, Zhan Fu, Yujie J. Ding, and Filbert J. Bartoli. “Plasmonic surface-wave splitter,” Appl. Phys. Lett. 90, 161130 (2007).

  23. Wenli, Bai, Baoshan Guo, Likang Cai, Qiaoqiang Gan, Guofeng Song, “Simulation of light coupling enhancement and localization of transmission field via subwavelength metallic grating”, ACTA Physica Sinca 58, 11 (2009).

  24. LeiHua, Guofeng Song, Baoshan Guo, HuiWang. “Mid-infrared heavily n-doped GaAs extraordinary transmission from sub-wavelength grooves,” Laser Physics 18, 116 (2008).

  25. Jianxia Gao, Guofeng Song, Baoshan Guo, Qiaoqiang Gan, Lianghui Chen. “Surface plasmon modulated vertical-cavity surface-emitting laser,” Chinese Physics 56, 10 (2007). (in Chinese)

  26. Jianxia Gao, Guofeng Song, Qiaoqiang Gan, Baoshan Guo, Lianghui Chen. “Surface plasmon modulated nano-aperture vertical-cavity surface-emitting laser,” Laser Phys. Lett. 3, 234 (2007).

  27. Song Guo-Feng, Wang Wei-Min, Cai Li-Kang, Guo Bao-Shan, Wang Qing, Xu Yun, Wei Xin, Liu Yun-Tao, “Sub-wavelength beam lasers with surface plasmon structures,” ACTA Physica Sinca 59, 7 (2010).

  28. Gao Jianxia, Song Guofeng, Gan Qiaoqiang; Xu Yun, Guo Baoshan, Chen Lianghui, “Fabrication and Characteristics of Nano-Aperture Vertical-Cavity Surface-Emitting Laser,” Chinese Journal of Semiconductors 28, 2 (2007).

  29. Song Guo-Feng, Zhang Yu, Guo Bao-Shan, Wang Wei-Min, “Single mode vertical-cavity surface emitting laser with surface plasmon nanostructure,” ACTA Physica Sinca 58, 10 (2009).

  30. Hua Lei, Song Guo-Feng, Guo Bao-Shan, Wang Wei-Min, Zhang Yu, “Enhanced mid-infrared transmission in heavily doped n-type semiconductor film based on surface plasmons,” ACTA Physica Sinca 57, 11 (2008).

  31. A research highlighted by Nature photonics (volume 1, 2007, web site:   http://www.nature.com/nphoton/journal/v1/n9/full/nphoton.2007.151.html)

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