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廖駿偉 教授兼系主任

廖駿偉 教授兼系主任

廖駿偉 教授

联络资讯

  • 电话:03-2118800 #5339, 5726, 5742
  • 信箱:markjwliaw@hotmail.com
  • 实验室:电浆实验室&苍产蝉辫;#5339, 5726, 5742

学歷

  • 国立台湾大学应用力学研究所 博士
  • 国立台湾大学应用力学研究所 硕士
  • 國立台灣大學机械工程学系 学士

经歷

  • 长庚大学机械系&苍产蝉辫;教授
  • 长庚大学机械系 副教授
  • 长庚大学机械系 助理教授
  • 国家地震工程研究中心 研究员
  • 工研院材料所 研究员
  • 元智大学机械系 兼任助理教授
  • 中央標準局专利 审查委员
  • 中华民国非破坏检测协会 学术委员
  • 教育部公费留考博士后研究 (Industrial Materials Institute, National Research Council of Canada)

研究计画

  • 含金奈米粒子之微脂体的光声效应研究(II)(III)(1/2), 计画编号: NERPD2D0161, 2014/8/1~2015/7/31
  • 具虚拟实境之抗疲劳脚踏车训练系统开发计画编号: CMRPD2D0091, 2014/2/1~2015/1/31
  • 103年度产业先进设备人才培育计画:半导体及光电产业先进设备人才培育资源中心(含智慧型PCB设备) , 计画编号: EERPD2D0031, 2014/1/1~2014/12/31

专利

  • 张仕欣、邓嘉莹、刘芳瑜、廖骏伟, "金属奈米光触媒复合材料及其製法", 中華民國专利发明第 I264326 号,&苍产蝉辫;2006/10/21-2024/12/23
  • 王崇人、张仕欣、蓝怡平、许富银、赵念慈、廖骏伟, "透光隔热元件", 中華民國专利发明第 I264453 号,&苍产蝉辫;2006/10/21-2024/12/13
  • 王志光、许富银、廖骏伟、闕山璋, "可见光诱发强氧化强还原光触媒", 中華民國专利发明第 I229011 号, 2005/03/11-2023/11/04
  • 李世光、余良彬、廖骏伟、林鼎晸、叶吉田、邱佑宗、陈春弟、吴乾埼、叶超雄、张祐嘉、黄国栋、陈怡君、王涌峰, "一种可提供次波长尺寸光束的光学头", 中華民國专利发明第 I266305 号,&苍产蝉辫;2006/11/11-2023/06/25
  • 王志光、许富银、廖骏伟、闕山璋, "奈米金属复合半导体光触媒", 中華民國专利发明第 I251507 号,&苍产蝉辫;2006/03/21-2022/12/31
  • 郭重显、廖骏伟、邱国维、萧嘉文、林燕慧, "动力辅助轮椅", 中華民國专利发明第 I359011 号,&苍产蝉辫;2012/03/01
  • 廖骏伟、郭重显、林志峯、苏盈勋、柯智裕, "防止压疮之承载装置", 中華民國专利发明第 I342769 号,&苍产蝉辫;2011/06/01
  • C.K. Lee, L. B. YU, J. W Liaw, D. Z. Lin, J. T. Yeh, Y. T. Chiu, C. T. Chen, C. C. Wu, C. S. Yeh, Y. C. Chang, K. T. Huang, Y. C., " Optical head capable of providing a subwavelength beams ", US Patent 7288776 B2, 2007/10/30
  • 张仕欣、邓嘉莹、刘芳瑜、廖骏伟, "金属奈米光触媒复合材料及其製法", 中華民國专利发明第 458547 号,&苍产蝉辫;2009/01/07

Highly Cited着作(Max:5Based on Google Scholar 2014/05)

  • L.B. Yu, D.Z. Lin, Y.C. Chen, Y.C. Chang, K.T. Huang, J.W. Liaw, J.T. Yeh, J.M. Liu, C.S. Yeh, and C.K. Lee, “Physical origin of directional beaming emitted from a subwavelength slit”, Physical Review B 71, 041405(R), 2005. (SCI, IF:3.075, Physics Condensed Material, 7/60) (Citations =138)
  • J.-W. Liaw, J.-H. Chen, C.-S. Chen, M.-K. Kuo, “Purcell effect of nanoshell dimer on single molecule’s fluorescence”, Opt. Express 17(16), 13532-13540, 2009. (SCI, IF:3.278, OPTICS 3/71) (Citations =41)
  • S.-W. Tsai, Y.-Y. Chen, J.-W. Liaw*, “Compound cellular imaging of laser scanning confocal microscopy by using gold nanoparticles and dyes”, Sensors 8, 2306-2316, 2008. (SCI, IF:1.821, INSTRUMENT & INSTRUMENTATION 11/58) (Citations =27)
  • J.-W. Liaw, “Simulation of surface plasmon resonance of metallic nanoparticles by boundary-element method”, J. Optical Soc. Am. A 23(1), 108-116, 2006. (SCI, IF:2.012, OPTICS 15/55) (Citations =17)
  • J.-W. Liaw, M.-K. Kuo and C.-N. Liao, “Plasmon resonance of spherical and ellipsoidal nanoparticles”, Journal of Electromagnetic Waves and Applications 19(13), 1787-1794, 2005. (SCI, IF:1.551, ENGINEERING, ELECTRICAL & ELECTRONIC 70/246) (Citations =17)

期刊论文(近五年)

  • J.-W. Liaw, B.-X. Chen, Y.-C. Ku, C.-Y. Yang, C.-W. Lin, M.-K. Kuo, “Optical manipulation of optical vortex beam on gold nanoparticle”, J. Mech. 38, 552–559, 2022.
  • S.-Y. Yu, M.-H. Shih, Y.-C. Ku, Y.-H. Kuo, J.-W. Liaw*, “Water-immersion laser scanning annealing for improving polycrystalline Au film”, ACS Omega 7(46), 42272-42282, 2022.
  • S.-Y. Yu, C.-H. Tu, J.-W. Liaw*, M.-K. Kuo*, “Laser-induced plasmonic nanobubbles and microbubbles in gold nanorod colloidal solution”, Nanomaterials 12(7), 1154, 2022, DOI: .
  • Y.-C. Ku, J.-W. Liaw*, S.-Y. Mao, M.-K. Kuo*, “Conversion of a helical surface plasmon polariton into a spiral surface plasmon polariton at the outlet of a metallic nanohole”, ACS Omega 7(12), 10420–10428, 2022, DOI: .
  • Y.-C. Ku, M.-K. Kuo, J.-W. Liaw*, “Winding Poynting vector of light around plasmonic nanostructure”, J. Quant. Spectrosc. Radiat. Transfer 278, 108005, DOI: .
  • M.-A. Lin, L.-F. Meng, Y. Ouyang, H.-L. Chan, Y.-J. Chang, S.-W. Chen, J.-W. Liaw, “Resistance-induced brain activity changes during cycle ergometer exercises”, Sports Medicine, Arthroscopy, Rehabilitation, Therapy & Technology 13, 27, 2021, DOI: .
  • Y.-C. Chen, J.-W. Liaw, “Machine learning and deep learning on health diagnosis of rotating fan”, International Journal of Applied Science and Engineering 18(3) 2021063, 2021, DOI: .
  • J.-W. Liaw, S.-Y. Mao, J.-Y. Luo, Y.-C. Ku, M.-K. Kuo, “Surface plasmon polaritons of higher-order mode and standing waves in metallic nanowires”, Opt. Express 29(12), 18876-18888, 2021, DOI: .
  • J.-W. Liaw, C.-Y. Kuo, S.-W. Tsia, “The effect of quasi-spherical gold nanoparticles on two-photon induced reactive oxygen species for cell damage”, Nanomaterials 11, 1180, 2021, DOI: .
  • J. W. Liaw, R.-S. Chen, V. C.-F. Chen, Y.-R. Wang, H.-L. Chan, Y.-J. Chang, “Evaluation of anticipatory postural adjustment before quantified weight shifting—system development and reliability test”, Applied Sciences 11, 758, 2021, DOI: .
  • J.-W. Liaw, G. Liu, Y.-C. Ku, M.-K. Kuo, “Plasmon-enhanced photothermal and optomechanical deformations of a gold nanoparticle”, Nanomaterials 10, 1881, 2020, DOI: .
  • H. C. Chang, C. C. Chen, J. W. Liaw, W. D. Chiou, Y. H. Weng, Y. J. Chang, C. S. Lu, “The effects of dual-task in patients with Parkinson’s disease performing cognitive-motor paradigms”, J. Clinical Neuroscience 72, 72-78, 2020, DOI: .
  • Y.-C. Huang, K. F. Lei, J.-W. Liaw, S.-W. Tsai, “The in?uence of laser intensity activated plasmonic gold nanoparticle-generated photothermal e?ects on cellular morphology and viability: a real-time, long-term tracking and monitoring system”, Photochemical & Photobiological Sciences 18(6), 1419-1429, 2019, DOI: .
  • J.-W. Liaw, M.-C. Huang, C.-W. Huang, Y.-C. Ku, M.-K. Kuo, “Light-driven self-organization of gold clusters by linearly polarized Gaussian beam”, J. Quant. Spectrosc. Radiat. Transfer 233, 35-41, 2019, DOI: .
  • J.-W. Liaw, M.-C. Huang, H.-Y. Chao, M.-K. Kuo, “Spin and orbital rotation of plasmonic dimer driven by circularly polarized light”, Nanoscale Res. Lett. 13, 322, 2018, DOI: .
  • J.-W. Liaw, C.-W. Chien, K.-C. Liu, Y.-C. Ku, M.-K. Kuo, “3D optical vortex trapping of plasmonic nanostructure”, Sci. Rep. 8, 12673, 2018, DOI: .
  • J.-W. Liaw*, H.-Y. Chao, C.-W. Huang, M.-K. Kuo, “Light-driven self-assembly of hetero-shaped gold nanorods”, Appl. Phys. A 124, 16, 2018, DOI: .
  • J.-W. Liaw*, C.-W. Huang, M.-C. Huang, M.-K. Kuo, “Plasmon-enhanced optical bending and heating on V-shaped deformation of gold nanorod”, Appl. Phys. A 124, 17, 2018, DOI: .
  • J.-W. Liaw*, W.-C. Lin, M.-K. Kuo*, “Wavelength-dependent plasmon-mediated coalescence of two gold nanorods”, Sci. Rep. 7, 46095, 2017, DOI: .
  • S.-Y. Yu, H. Gunawan, S.-W. Tsai, Y.-J. Chen, T.-C. Yen, J.-W. Liaw*, “Single-crystalline gold nanowires synthesized from light-driven oriented attachment and plasmon-mediated self-assembly of gold nanorods or nanoparticles”, Sci. Rep. 7, 44680, 2017, DOI: .

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