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廖駿偉 教授

2200 最高學歷:台灣大學   應用力學博士
研究領域:智慧型醫療輔助系統奈米生醫感測非破壞檢測、微波電漿CVD、
          熱輻射紅外線光譜、電磁波散射與近場光學電腦模擬、雷射誘發電漿
          光譜、即時光譜電漿製程監測。
聯絡方式:電話:(03)211-8800 分機 5339 ,5726 ,5742
     e-mail:
markjwliaw@hotmail.com
實 驗 室:電漿實驗室  分機  5339 ,5726 ,5742

簡歷

    ●學歷:
      國立台灣大學   應用力學研究所 博士
      國立台灣大學   應用力學研究所 碩士
      國立台灣大學   機械工程學系   學士
  
●經歷:
        長庚大學 機械系 教授 
        長庚大學 機械系 副教授  
         長庚大學 機械系助理教授 
         國家地震工程研究中心 研究員 
         工研院材料所 研究員 
         元智大學 機械系兼任助理教授 
         中央標準局專利審查委員 
         中華民國非破壞檢測協會 學術委員 
         教育部公費留考博士後研究 (Industrial Materials Institute, National Research
         Council of Canada

 

目前進行中研究計畫的計劃名(起、迄日期)

       

計畫編號

名稱

起訖日期

CMRPD2D0091

具虛擬實境之抗疲勞腳踏車訓練系統開發

2014/2/1~2015/1/31

EERPD2D0031

103年度產業先進設備人才培育計畫:半導體及光電產業先進設備人才培育資源中心(含智慧型PCB設備)

2014/1/1~2014/12/31

NERPD2D0161

含金奈米粒子之微脂體的光聲效應研究(II)(III)(1/2)

2014/8/1~2015/7/31

論文發表

         

  1. 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.
  2. 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.
  3. Y.-C. Ku, M.-K. Kuo, J.-W. Liaw*, “Winding Poynting vector of light around plasmonic nanostructure”, J. Quant. Spectrosc. Radiat. Transfer 278, 108005, 2022.
  4. 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.
  5. 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.
  6. 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.
  7. 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.
  8. 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.
  9. 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.
  10. 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.
  11. Y.-C. Huang, K. F. Lei, J.-W. Liaw, S.-W. Tsai, “The influence of laser intensity activated plasmonic gold nanoparticle-generated photothermal effects on cellular morphology and viability: a real-time, long-term tracking and monitoring system”, Photochemical & Photobiological Sciences 18(6), 1419-1429, 2019.
  12. 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.
  13. 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.
  14. 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.
  15. 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.
  16. 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.
  17. J.-W. Liaw*, W.-C. Lin, M.-K. Kuo*, “Wavelength-dependent plasmon-mediated coalescence of two gold nanorods”, Sci. Rep. 7, 46095, 2017.
  18. 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.
  19. C.-E. Lin, L.-R. Rau, J.-W. Liaw, S.-W. Tsai, “Biocompatibility analysis of NIH/3T3 cells exposed to silica-coated silver and silver nanoparticles”, Nanoscience and Nanotechnology Letters 8, 1080-1088, 2016.
  20. L.-R. Rau, S.-W. Tsao, J.-W. Liaw, and S.-W. Tsai, “Selective Targeting and Restrictive Damage for Nonspecific Cells by Pulsed Laser-Activated Hyaluronan-Gold Nanoparticles”, Biomacromolecules 17(8), 2514–2521, 2016.
  21. L.-R. Rau, W.-Y. Huang, J.-W. Liaw*, S.-W. Tsai*, “Photothermal effects of laser-activated surface plasmonic gold nanoparticles on the apoptosis and osteogenesis of osteoblast-like cells", International Journal of Nanomedicine 11, 3461-73, 2016.
  22. J.-W. Liaw*, Y.-S. Chen, and M.-K. Kuo*, “Maxwell stress induced optical torque upon gold prolate nanospheroid”, Appl. Phys. A 122(3): 182, 2016
  23. J.-W. Liaw, T.-Y. Kuo, M.-K. Kuo, “Plasmon-mediated binding forces on gold or silver homodimer and heterodimer”, J. Quant. Spectrosc. Radiat. Transfer 170, 150-158, 2016.
  24. J.-W. Liaw, Y.-S. Chen, M.-K. Kuo, “Spinning gold nanoparticles driven by circularly polarized light”, J. Quant. Spectrosc. Radiat. Transfer 175, 46-53, 2016.
  25. J.-W. Liaw, H.-Y. Wu, C.-C. Huang, M.-K. Kuo, “Metal enhanced fluorescence of silver island associated with silver nanoparticle”, Nanoscale Res. Lett. 11, 26, 2016.
  26. S.-W. Chen, J.-W. Liaw*,Y.-J. Chang, H.-L. Chan, and Li-Yu Chiu, “A Cycling Movement based System for Real-time Fatigue and Cardiac Stress Monitoring and Analysis”, PLOS ONE 10(6), e0130798, 2015.
  27. S.-W.Chen, J.-W. Liaw, Y.-J. Chang, L.-L Chuang, C.-T. Chien, “Combined Heart Rate Variability and Dynamic Measures for Quantitatively Characterizing the Cardiac Stress Status during Cycling Exercise”, Computers in Biology and Medicine 63, 133-142, 2015. .
  28. J.-W. Liaw, W.-J. Lo, Wu-Chun Lin, and M.-K. Kuo, “Theoretical study of optical torques for alignments of Ag nanorod and nanowire”, J. Quant. Spectrosc. Radiat. Transfer 162, 133-142, 2015.
  29. J.-C. Cheng, J.-W. Liaw*, C. Ma, R. Zhang, “Dispersion relation of a plasmonic waveguide on substrate”, Vacuum 118, 26-31, 2015.
  30. J.-W.Liaw*, B.-R. Chen, and M.-K.Kuo, “Plasmon-mediated excitation modulation of FRET by silver nanoshell”, Microelectronic Engineering 138, 122-127, 2015.
  31. S.-Y. Yu, S.-W. Tsai, and Y.-J. Chen, J.-W.Liaw*, “Pulsed laser induced microbubble in gold nanorod colloid”, Microelectronic Engineering 138, 102-106, 2015.
  32. J.-W. Liaw*, Y.-S. Chen, and M.-K. Kuo*, “Rotating Au nanorod & nanowire driven by circularly polarized light”, Opt. Express 22(21), 26005-26015, 2014.
  33. J.-W. Liaw*, H.-C. Chen, M.-K. Kuo*, “Comparison of Au and Ag nanoshells’ metal-enhanced fluorescence”, J. Quant. Spectrosc. Radiat. Transfer 146, 321–330, 2014.
  34. J.-W. Liaw, W.-J. Lo, and M.-K. Kuo*, “Wavelength-dependent longitudinal polarizability of gold nanorod on optical torque”, Opt. Express 22(9), 10858-67, 2014.
  35. J.-W. Liaw*, H.-C. Chen, B.-R. Chen, M.-K. Kuo*, “Metal enhanced fluorescence of Ag-nanoshell dimer”, Appl. Phys. A 115, 45–52, 2014.
  36. C. Ma, R. Zhang, J.-W. Liaw*, J.-C. Cheng, “Plasmonic modes of nanobox, nanocage, and nanoframe”, Appl. Phys. A 115, 31-37, 2014.
  37. J.-W. Liaw, H.-C. Chen, M.-K. Kuo*, “Plasmonic Fano Resonance and Dip of Au-SiO2-Au Nanomatryoshka”, Nanoscale Res Lett. 8:468, 2013.
  38. S.-W. Tsai*, J.-W. Liaw, Y.-C. Kao, M.-Y. Huang and C.-Y. Lee, C.-Y. Huang, K.-C. We, T.-C. Yen, “A quantitative, in vitro study of the internalized gold nanoparticles do not impair the osteogenesis and apoptosis of MG63 osteoblast-like cell: A quantitative, in vitro study”, PLOS ONE 8(10), e76545, 2013.
  39. J.-W. Liaw*, J.-C. Cheng, C. Ma, R. Zhang, “Theoretical analysis of plasmon modes of Au-Ag nanocages”, J. Phys. Chem. C 117, 19586−19592, 2013.
  40. H.-W. Yang, H.-L. Liu, M.-L. Li, I-W. Hsi, C.-T. Fan, C.-Y. Huang, Y.-J. Lu, M.-Y. Hua, H.-Y. Chou, J.-W. Liaw, C.-C. M. Ma*, K.-C. Wei*, “Magnetic gold-nanorod/ PNIPAAmMA nanoparticles for dual magnetic resonance and photoacoustic imaging and targeted photothermal therapy”, Biomaterials 34(22), 5651 -5660, 2013. 
  41. Y. Gao, R. Zhang, J.-C. Cheng, J.-W. Liaw*, and C. Ma, “Optical properties of plasmonic dimer, trimer, tetramer and pentamer assembles of gold nanoboxes”, J. Quant. Spectrosc. Radiat. Transfer 125, 23-32, 2013.
  42. J.-W. Liaw, C.-H. Huang, and M.-K. Kuo*, “Longitudinal plasmon modes of Ag nanorod coupled with a pair of quantum dots”, J. Nanosci. Nanotechnol. 13, 6627–6634, 2013.
  43. J.-W. Liaw*, C.-Y. Jiang, “Plasmonic modes of Ag nanoshell excited by bi-dipole”, Plasmonics 8(2), 255–265, 2013.
  44. J.-W. Liaw*, C.-Y. Jiang, “Bi-dipole emission via plasmon modes of Au/Ag nanoshell”, J. Quant. Spectrosc. Radiat. Transfer 114, 56-64, 2013.
  45. J.-W. Liaw, C.-H. Huang, M.-K. Kuo*, “Subwavelength Fabry-Perot resonator: bi-quantum dots incorporated with gold nanorod”, Nanoscale Res. Lett. 7: 546, 2012.
  46. J.-W. Liaw*, S.-W. Tsai, H.-H. Lin, T.-C. Yen, B.-R. Chen, “Wavelength-dependent Faraday-Tyndall effect on laser-induced microbubble in gold colloid”, J. Quant. Spectrosc. Radiat. Transfer 113, 2234-2242, 2012.
  47. J.-W. Liaw*, C.-H. Huang, “Bi-dipole excited plasmonic modes of an elongated gold nanorod”, J. Quant. Spectrosc. Radiat. Transfer 113(12), 1446-1453, 2012.
  48. J.-W. Liaw*, H.-Y. Tsai, C.-H. Huang, “Size-dependent surface enhanced fluorescence of gold nanorod: enhancement or quenching”, Plasmonics 7(3), 543-553, 2012.
  49. J.-W. Liaw*, H.-Y. Tsai, “Theoretical investigation of plasmonic enhancement of silica-coated gold nanorod on molecular fluorescence”, J. Quant. Spectrosc. Radiat. Transfer 113, 470-479, 2012.
  50. J.-W. Liaw*, C.-L. Liu, “Average plasmonic enhancement of molecules-doped Au-NS@SiO2 on fluorescence”, J. Nanosci. Nanotechnol. 11, 7687-7692, 2011.
  51. J.-W. Liaw*, C.-L. Liu, “Plasmonic effect of nanoshelled nanocavity on encapsulated emitter’s spontaneous emission”, J. Quant. Spectrosc. Radiat. Transfer 112, 2480–2485, 2011.
  52. J.-W. Liaw, C.-L. Liu, M.-K. Kuo*, “Dual-band plasmonic enhancement of Ag-NS@SiO2 on gain medium’s spontaneous emission”, Plasmonics 6, 673-680, 2011.
  53. J.-W. Liaw*, C.-S. Chen, J.-H. Chen, “Plasmonic effect of gold nanospheroid on spontaneous emission”, PIER B 31, 283-296, 2011.
  54. J.-W. Liaw*, C.-L. Liu, W.-M. Tu, C.-S. Sun, “Plasmonic enhancement of coreshell (Au@SiO2) on molecular fluorescence”, J. Quant. Spectrosc. Radiat. Transfer 112(5), 893-900, 2011.
  55. J.-W. Liaw, C.-L. Liu, W.-M. Tu, C.-S. Sun, M.-K. Kuo, “Average enhancement factor of molecules-doped coreshell (Ag@SiO2) on fluorescence”, Opt. Express 18(12), 12788-12797, 2010.
  56. J.-W. Liaw, J.-H. Chen, and C.-S. Chen, “Enhancement or quenching effect of metallic nanodimer on spontaneous emission”, J. Quant. Spectrosc. Radiat. Transfer 111, 454-465, 2010.
  57. J.-W. Liaw, S.-W. Tsai, K.-L. Chen, F.-Y. Hsu, “Single-photon and two-photon cellular imagings of gold nanorods and dye”, J. Nanosci. Nanotechnol. 10(1), 467-473, 2010.
  58. J.-W. Liaw, C.-S. Chen, J.-H. Chen, M.-K. Kuo, “Purcell effect of nanoshell dimer on single molecule’s fluorescence”, Optics Express 17(16), 13532-13540, 2009.
  59. J.-W. Liaw, “Analysis of a bowtie nanoantenna for the enhancement of spontaneous emission”, IEEE JSTQE, 14(6), 1441-1447, 2008.
  60. S.-W. Tsai*, J.-W. Liaw, F.-Y. Hsu*, Y.-Y. Chen, M.-H. Yeh, M.-J. Lyu, “Surface-modified gold nanoparticles with folic acid as optical probes for cellular imaging”, Sensors 8, 6660-6673, 2008.
  61. 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.
  62. J.-W. Liaw, P.-T. Wu, “Dispersion relation of surface plasmon wave propagating along a curved metal-dielectric interface”, Opt. Express 16, 4945-4951, 2008.
  63. P.-H. Hsieh, C.-L. Tai, J.-W. Liaw, Y.-H. Chang, “Thermal damage potential during hip resurfacing in osteonecrosis of the femoral head: an experimental study”, J. Orthop. Res., Sep., 1206-1209, 2008.
  64. J.-W. Liaw, “The quantum yield of a metallic nanoantenna”, Appl. Phys. A 89, 357-362, 2007.
  65. J.-W. Liaw, “Local field enhancement and quantum yield of metallic dimer”, Jpn. J. Appl. Phys. 46(8A), 5373-5378, 2007.
  66. J.-W. Liaw, “New surface integral equations for the light scattering of multi-metallic nanoscatterers”, Eng. Anal. with Boundary Elements 31(4), 299-310, 2007.
  67. J.-W. Liaw, “Analysis of the surface plasmon resonance of a single core-shelled nanocomposite by surface integral equations”, Eng. Anal. with Boundary Elements 30(9), 734-745, 2006.
  68. 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.
  69. 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.
  70. 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.

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

  1. 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)
  2. 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)
  3. 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)
  4. 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)
  5. 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)

 

專利(請依以下格式填寫)

發明創作中文名稱

發明人

證書號

專利起

專利迄

可見光誘發強氧化強還原光觸媒

王志光、許富銀、廖駿偉、闕山璋

I229011

2005/3/11

2023/11/4

奈米金屬複合半導體光觸媒

王志光、許富銀、廖駿偉、闕山璋

I251507

2006/3/21

2022/12/31

透光隔熱元件

王崇人、張仕欣、藍怡平、許富銀、趙念慈、廖駿偉

I264453

2006/10/21

2024/12/23

金屬奈米光觸媒複合材料及其製法

張仕欣、鄧嘉瑩、劉芳瑜、廖駿偉

I264326

2006/10/21

2024/12/23

一種可提供次波長尺寸光束的光學頭

李世光, 余良彬, 廖駿偉, 林鼎晸, 葉吉田, 邱佑宗, 陳春弟, 吳乾埼, 葉超雄, 張祐嘉, 黃國棟, 陳怡君, 王湧峰

I266305

2006/11/11

2023/6/25

金屬奈米光觸媒複合材料及其製法

張仕欣、鄧嘉瑩、劉芳瑜、廖駿偉

中華人民共和國發明專利第458547

2009/1/7

 

Optical head capable of providing a subwavelength beams

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. Chen, Y. F. Wang

USA 7288776 B2

2007/10/30

 

防止壓瘡之承載裝置

廖駿偉,郭重顯,林志峯,蘇盈勳,柯智裕

I342769

2011/6/1

 

動力輔助輪椅

郭重顯, 廖駿偉,邱國維,蕭嘉文,林燕慧

I359011

2012/03/01

 

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