楊奕,武漢大學物理科學與技術學院,教授,博士生導師,中組部青年千人計畫入選者。
楊 奕:武漢大學物理科學與技術學院,教授,博士生導師,中組部青年千人計畫入選者。
受教育經歷:
1999/09 – 2003/06,武漢大學,物理科學與技術學院,學士
2003/09 – 2008/06,武漢大學,物理科學與技術學院,博士
研究工作經歷:
2008 – 2013,南洋理工大學,微電子工程系,博士後研究員
2013 – 至今,武漢大學,物理科學與技術學院,教授
楊奕教授的主要研究領域為光流控基礎理論研究,光流控晶片的設計與實現,以及光流控在生化感測和環境檢測上的套用;微納米光學功能材料的設計﹑製備和器件研究。 在《Nature communications》、《Lab on a chip》等國際著名學術期刊和重要會議上發表學術論文20餘篇。在國際光流控大會,國際先進材料技術大會,IEEE MEMS ,Micro TAS 等國際高端會議上做口頭陳訴11次, 並擔任過國際光流控大會分會主席 (Section chair)。是AIP,APS , OSA 與 ACS 成員 (Member), 擔任過 《Lab on a chip》, 《Appl. Phys. Lett. 》, 《Opt. Lett. 》, 《Opt. Express》, 《Biomicrofluidics》 等多個著名雜誌的審稿人。獲得 “全國百篇優秀博士論文提名獎暨湖北省優秀博士論文”和入選中組部“青年千人計畫”。回國後即開展武漢大學光流控實驗室的建設及光流控晶片的開發。光流控是一門新興的學科與技術,有巨大的潛在經濟價值。
1999/09 – 2003/06,武漢大學,物理科學與技術學院,學士
2003/09 – 2008/06,武漢大學,物理科學與技術學院,博士
研究工作經歷:
2008 – 2013,南洋理工大學,微電子工程系,博士後研究員
2013 – 至今,武漢大學,物理科學與技術學院,教授
楊奕教授的主要研究領域為光流控基礎理論研究,光流控晶片的設計與實現,以及光流控在生化感測和環境檢測上的套用;微納米光學功能材料的設計﹑製備和器件研究。 在《Nature communications》、《Lab on a chip》等國際著名學術期刊和重要會議上發表學術論文20餘篇。在國際光流控大會,國際先進材料技術大會,IEEE MEMS ,Micro TAS 等國際高端會議上做口頭陳訴11次, 並擔任過國際光流控大會分會主席 (Section chair)。是AIP,APS , OSA 與 ACS 成員 (Member), 擔任過 《Lab on a chip》, 《Appl. Phys. Lett. 》, 《Opt. Lett. 》, 《Opt. Express》, 《Biomicrofluidics》 等多個著名雜誌的審稿人。獲得 “全國百篇優秀博士論文提名獎暨湖北省優秀博士論文”和入選中組部“青年千人計畫”。回國後即開展武漢大學光流控實驗室的建設及光流控晶片的開發。光流控是一門新興的學科與技術,有巨大的潛在經濟價值。
主要論著
期刊論文:
[1] Y. Yang, A. Q. Liu, L. K. Chin, X. M. Zhang, D. P. Tsai, C. L. Lin, C. Lu, G. P. Wang, and N. I. Zheludev, “Optofluidic waveguide as a transformation optics device for lightwave bending and manipulation,” Nat. Commun., Vol 3, pp.651, 2012.
[2] Y. Yang, L. K. Chin, J. M. Tsai, D. P. Tsai, N. Zheludev, and A. Q. Liu, “Transformation optofluidics for large-angle light bending and tuning,” Lab Chip, Vol 12, pp.3785-3790, 2012.
[3] A. Q. Liu, L. K. Chin, Y. Yang, D. P. Tsai, and N. I. Zheludev, “Optofluidic transformation optics for innovative devices,” SPIE Newsroom, DOI:10.1117/2.1201210.004509, 2012.
[4] Y. Yang, A. Q. Liu, L. Lei, L. K. Chin, C. D. Ohl, Q. J. Wang, and H. S. Yoon, “A tunable 3D optofluidic waveguide dye laser via two centrifugal Dean flow streams,” Lab Chip, Vol 11, pp.3182-3187, 2011.
[5] S. Xiong, A. Q. Liu, L. K. Chin, and Y. Yang, “An optofluidic prism tuned by two laminar flows,” Lab Chip, Vol 11, pp.1864-1869, 2011. (Nature Photonics 研究亮點報導,Vol 5, pp.326, 2011 ).
[6] Z. G. Li, Y. Yang, X. M. Zhang, A. Q. Liu, J. B. Zhang, L. Cheng, and Z. H. Li, “Tunable visual color filter using microfluidic grating,” Biomicrofluidics, Vol. 4, pp.043013, 2010.
[7] J. Q. Yu, Y. Yang, A. Q. Liu, L. K. Chin and X. M. Zhang, “Microfluidic droplet grating for reconfigurable optical diffraction,” Opt. Lett., Vol. 35, pp. 1890-1892, 2010.
[8] Y. Yang, Q. Li and G. P. Wang, “Fabrication of periodic complex photonic crystals constructured with a portion of photonic quasicrystals by interference lithography,” Appl. Phys. Lett., Vol 93, pp. 061112, 2008.
[9] Y. Yang, Q. Li, and G. P. Wang, “Diverse structures of optical metamaterials by interference lithography,” Opt. Express, Vol 16, pp. 11275-11280, 2008.
[10] Y. Yang and G. P. Wang, “Two-dimensional photonic crystals constructed with a portion of photonic quasicrystals,” Opt. Express, Vol 15, pp.5991-5996 ,2007.
[11] Y. Yang, S. H. Zhang and G. P. Wang, “Single-beam holography for Ag nanoparticle-embedded two-dimensional binary metallodielectric photonic crystals,” Appl. Opt., Vol 46, pp. 84-86, 2007.
[12] Y. Yang and G. P. Wang, “Realization of periodic and quasiperiodic microstructures with sub-diffraction-limit feature sizes by far-field holographic lithography,” Appl. Phys. Lett., Vol 89, pp.111104, 2006. (封面故事)
[13] Y. Yang, S. H. Zhang, and G. P. Wang, “Fabrication of two-dimensional metallodielectric quasicrystals by single-beam holography,” Appl. Phys. Lett., Vol 88, pp.251104 , 2006.
[14] Y Yang, G. P. Wang, J. Xie, and S. Zhang, “Metal nanoparticles-embedded three-dimensional microstructures created by single-beam holography,” Appl. Phys. Lett.,Vol 86, pp.173108,2005
期刊論文:
[1] Y. Yang, A. Q. Liu, L. K. Chin, X. M. Zhang, D. P. Tsai, C. L. Lin, C. Lu, G. P. Wang, and N. I. Zheludev, “Optofluidic waveguide as a transformation optics device for lightwave bending and manipulation,” Nat. Commun., Vol 3, pp.651, 2012.
[2] Y. Yang, L. K. Chin, J. M. Tsai, D. P. Tsai, N. Zheludev, and A. Q. Liu, “Transformation optofluidics for large-angle light bending and tuning,” Lab Chip, Vol 12, pp.3785-3790, 2012.
[3] A. Q. Liu, L. K. Chin, Y. Yang, D. P. Tsai, and N. I. Zheludev, “Optofluidic transformation optics for innovative devices,” SPIE Newsroom, DOI:10.1117/2.1201210.004509, 2012.
[4] Y. Yang, A. Q. Liu, L. Lei, L. K. Chin, C. D. Ohl, Q. J. Wang, and H. S. Yoon, “A tunable 3D optofluidic waveguide dye laser via two centrifugal Dean flow streams,” Lab Chip, Vol 11, pp.3182-3187, 2011.
[5] S. Xiong, A. Q. Liu, L. K. Chin, and Y. Yang, “An optofluidic prism tuned by two laminar flows,” Lab Chip, Vol 11, pp.1864-1869, 2011. (Nature Photonics 研究亮點報導,Vol 5, pp.326, 2011 ).
[6] Z. G. Li, Y. Yang, X. M. Zhang, A. Q. Liu, J. B. Zhang, L. Cheng, and Z. H. Li, “Tunable visual color filter using microfluidic grating,” Biomicrofluidics, Vol. 4, pp.043013, 2010.
[7] J. Q. Yu, Y. Yang, A. Q. Liu, L. K. Chin and X. M. Zhang, “Microfluidic droplet grating for reconfigurable optical diffraction,” Opt. Lett., Vol. 35, pp. 1890-1892, 2010.
[8] Y. Yang, Q. Li and G. P. Wang, “Fabrication of periodic complex photonic crystals constructured with a portion of photonic quasicrystals by interference lithography,” Appl. Phys. Lett., Vol 93, pp. 061112, 2008.
[9] Y. Yang, Q. Li, and G. P. Wang, “Diverse structures of optical metamaterials by interference lithography,” Opt. Express, Vol 16, pp. 11275-11280, 2008.
[10] Y. Yang and G. P. Wang, “Two-dimensional photonic crystals constructed with a portion of photonic quasicrystals,” Opt. Express, Vol 15, pp.5991-5996 ,2007.
[11] Y. Yang, S. H. Zhang and G. P. Wang, “Single-beam holography for Ag nanoparticle-embedded two-dimensional binary metallodielectric photonic crystals,” Appl. Opt., Vol 46, pp. 84-86, 2007.
[12] Y. Yang and G. P. Wang, “Realization of periodic and quasiperiodic microstructures with sub-diffraction-limit feature sizes by far-field holographic lithography,” Appl. Phys. Lett., Vol 89, pp.111104, 2006. (封面故事)
[13] Y. Yang, S. H. Zhang, and G. P. Wang, “Fabrication of two-dimensional metallodielectric quasicrystals by single-beam holography,” Appl. Phys. Lett., Vol 88, pp.251104 , 2006.
[14] Y Yang, G. P. Wang, J. Xie, and S. Zhang, “Metal nanoparticles-embedded three-dimensional microstructures created by single-beam holography,” Appl. Phys. Lett.,Vol 86, pp.173108,2005
國際會議:
[1] Y. Yang and A. Q. Liu, “Transformation Optofluidics for cell manipulation in Flowing Streams” The 3st International Conference on Optofluidics, 2013, Hong Kong (邀請報告).
[2] Y. Yang and A. Q. Liu, “Optofluidics transforamtion optics and devices,” The 2st International Conference on Optofluidics, 2012, Suzhou China (特邀報告和分會主席).
[3] Y. Yang, J. M. Tsai, D. L. Kwong, and A. Q. Liu, “Nano-optofluidics for single molecule detection and sorting,” MEMS 2012 (25th IEEE International Conference on Micro Electro Mechanical Systems), Paris, France, 2012 (大會報告).
[4] Y. Yang and A. Q. Liu, “A tunable 3D optofluidic waveguide dye laser using two centrifugal Dean flow streams,” ICMAT 2011 (International Conference on Materials for Advanced Technologies), Singapore, 2011 (大會報告和分會主席).
[5] Y. Yang, C. D. Ohl, H. S. Yoon, and A. Q. Liu, “3D liquid-liquid waveguide using two flow streams by centrifugal force,”μTAS 2010 (14th International Conference on Miniaturized Systems for Chemistry and Life Sciences), Groningen, Netherlands, 2010 (大會報告).
[6] Y. Yang, J. M. Tsai, D. L. Kwong and A. Q. Liu, “Nano-optofluidics for single molecule detection,” μTAS2012(16th International Conference on Miniaturized Systems for Chemistry and Life Sciences),Okinawa, Japan
[7] Y. Yang, A. Q. Liu and D. P. Tsai, “Nano-liquid/liquid waveguide coupling by evanescent tunning effect for biomolecule imaging applications,” μTAS2011(15th International Conference on Miniaturized Systems for Chemistry and Life Sciences),Seattle, USA.
[8] Y. Yang, G. P. Wang and A. Q. Liu, “Light transmission and interferometery in liquid-liquid waveguide for photocatalytic,” μTAS2011(15th International Conference on Miniaturized Systems for Chemistry and Life Sciences),Seattle, USA
[9] Y. Yang, C. D.Ohl, H. S. Yoon and A. Q. Liu, "A highly efficient three-dimensional (3D) liquid-liquid waveguide laser by two flow streams", 24th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2011), Cancun.
[1] Y. Yang and A. Q. Liu, “Transformation Optofluidics for cell manipulation in Flowing Streams” The 3st International Conference on Optofluidics, 2013, Hong Kong (邀請報告).
[2] Y. Yang and A. Q. Liu, “Optofluidics transforamtion optics and devices,” The 2st International Conference on Optofluidics, 2012, Suzhou China (特邀報告和分會主席).
[3] Y. Yang, J. M. Tsai, D. L. Kwong, and A. Q. Liu, “Nano-optofluidics for single molecule detection and sorting,” MEMS 2012 (25th IEEE International Conference on Micro Electro Mechanical Systems), Paris, France, 2012 (大會報告).
[4] Y. Yang and A. Q. Liu, “A tunable 3D optofluidic waveguide dye laser using two centrifugal Dean flow streams,” ICMAT 2011 (International Conference on Materials for Advanced Technologies), Singapore, 2011 (大會報告和分會主席).
[5] Y. Yang, C. D. Ohl, H. S. Yoon, and A. Q. Liu, “3D liquid-liquid waveguide using two flow streams by centrifugal force,”μTAS 2010 (14th International Conference on Miniaturized Systems for Chemistry and Life Sciences), Groningen, Netherlands, 2010 (大會報告).
[6] Y. Yang, J. M. Tsai, D. L. Kwong and A. Q. Liu, “Nano-optofluidics for single molecule detection,” μTAS2012(16th International Conference on Miniaturized Systems for Chemistry and Life Sciences),Okinawa, Japan
[7] Y. Yang, A. Q. Liu and D. P. Tsai, “Nano-liquid/liquid waveguide coupling by evanescent tunning effect for biomolecule imaging applications,” μTAS2011(15th International Conference on Miniaturized Systems for Chemistry and Life Sciences),Seattle, USA.
[8] Y. Yang, G. P. Wang and A. Q. Liu, “Light transmission and interferometery in liquid-liquid waveguide for photocatalytic,” μTAS2011(15th International Conference on Miniaturized Systems for Chemistry and Life Sciences),Seattle, USA
[9] Y. Yang, C. D.Ohl, H. S. Yoon and A. Q. Liu, "A highly efficient three-dimensional (3D) liquid-liquid waveguide laser by two flow streams", 24th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2011), Cancun.
[10] Y. Yang, Z. Shen, D. P. Tsai and A. Q. Liu, “An optofluidic beam splitter with large tuning angle via control of flow rate,” μTAS2009(13th International Conference on Miniaturized Systems for Chemistry and Life Sciences),Jeju Island, South Korea.
獎勵:
[1] 楊奕,中組部,青年千人計畫,2013.
[2] 楊奕,全國百篇優秀博士論文提名獎暨湖北省優秀博士論文,2010.
獎勵:
[1] 楊奕,中組部,青年千人計畫,2013.
[2] 楊奕,全國百篇優秀博士論文提名獎暨湖北省優秀博士論文,2010.
專利:
[1] A. Q. Liu, Y. Yang, “Nano-optofluidic system for single molecule detection and sorting,” No. 61/665, 511, 2012-06-28, USA.
[2] 汪國平, 楊奕,一種用於製備光子晶體微結構功能材料的折射光學元件 ZL200510018703.8 , 2007-03-14, 中國。
[1] A. Q. Liu, Y. Yang, “Nano-optofluidic system for single molecule detection and sorting,” No. 61/665, 511, 2012-06-28, USA.
[2] 汪國平, 楊奕,一種用於製備光子晶體微結構功能材料的折射光學元件 ZL200510018703.8 , 2007-03-14, 中國。
