國立中興大學物理學系

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陳坤麟

Tel 22840427 分機719   超導電子元件物理與應用 磁性物理 磁性生醫檢測技術 腦磁圖
  • 學歷 Education
    國立台灣大學物理所博士
    國立台灣大學物理所碩士
    國立台灣大學物理系學士
     
    經歷 Work Experience
    國立中興大學助理教授(2014-present)
    逢甲大學光電系兼任助理教授(2013-2014)
    崑山科技大學光電系博士後研究員(2012-2014)
    國立台灣大學物理系博士後研究員(2008-2012)
    國立台灣大學普通物理實驗室專任助教(2001-2003)
  • 超導電子元件物理與應用
    磁性物理
    磁性生醫檢測技術
    腦磁圖
    1. C. Y. Wang, T. W. Yang, D. Shen, K. L. Chen*, J. M. Chen, S. H. Liao, J. J.Chieh, H. C. Yang, and L. M. Wang* (2017, Mar). Bioassay using blocking temperature: Interparticle interactions between biofunctionalized magnetic nanoparticles conjugated with biotargets. Applied Physics Letters, 110, pp.133701. (SCI, 28/145, Applied Physics).
    2. Kuen-Lin Chen, Yao-Wei Yeh, Jian-Ming Chen, Yu-Jie Hong, Tsung-Lin Huang, Zu-Yin Deng, Chiu-Hsien Wu, Su-Hsien Liao & Li-Min Wang(2016,Oct). “Influence of magnetoplasmonic γ-Fe2O3/Au core/shell nanoparticles on low-field nuclear magnetic resonance.” Scientific Reports, 6, 35477(SCI, 7/63, Multidisciplinary Science).
    3. Chin-Wei Lin, Kuang-Lu Huang, Kai-Wei Chang, Jan-Han Chen, Kuen-Lin Chen, Chiu-Hsien Wu, (2016, May). “Ultraviolet photodetector and gas sensor based on amorphous In-Ga-Zn-O film.” Thin Solid Films, 618, 73-76.
    4. Kuen-Lin Chen*, Jean-Hong Chen, Su-Hsien Liao, Jen-Je Chieh, Herng-Er Horng, Li-Min Wang, Hong-Chang Yang, “Magnetic Clustering Effect during the Association of Biofunctionalized Magnetic Nanoparticles with Biomarkers”, PLoS ONE 10, e0135290(2015). (SCI, EI, IF: 3.234)
    5. Kuen-Lin Chen, Guo-Jhen Jiang, Kai-Wei Chang, Jan-Han Chen, Chiu-Hsien Wu, “Gas sensing properties of indium–gallium–zinc–oxide gas sensors in different light intensity.” Analytical Chemistry Research, 4, pp. 8-12(2015)
    6. Chiu-Hsien Wu, Guo-Jhen Jiang, Kai-Wei Chang, Chin-Wei Lin, and Kuen-Lin Chen, “Highly sensitive amorphous In-Ga-Zn O films for ppb-level ozone sensing: Effects of deposition temperature”, Sensor. Actuat. B-Chem. 211, 354(2015). (SCI, EI, IF: 4.097)
    7. Shu-Hsien Liao, Jean-Hong Chen, Yu-Kai Su, Kuen-Lin Chen, Herng-Er Horng, and Hong-Chang Yang, “Assaying Biomarkers via Real-Time Measurements of the Effective Relaxation Time of Biofunctionalized Magnetic Nanoparticles Associated with Biotargets”, J. Nanomater. 2015, 497296(2015). (SCI, EI, IF: 1.644)
    8. Shu-Hsien Liao, Kuen-Lin Chen, Chun-Min Wang, Jen-Jie Chieh, Herng-Er Horng, Li-Min Wang, C. H. Wu, and Hong-Chang Yang, “Using Bio-Functionalized Magnetic Nanoparticles and Dynamic Nuclear Magnetic Resonance to Characterize the Time-Dependent Spin-Spin Relaxation Time for Sensitive Bio-Detection”, Sensors 14, 21409 (2014). (SCI, EI, IF: 2.245)
    9. Kuen-Lin Chen, Su-Hsien Liao, Yan-Hong Chen, Herng-Er Horng, Li-Min Wang, and Hong-Chang Yang, “Low-noise serial high-Tc YBa2Cu3Oy superconducting quantum interference devices based on bicrystal junctions”, IEEE Trans. Appl. Supercond. 25, 1600107 (2014). (SCI, EI, IF: 1.235)
    10. S. H. Liao, H. C. Yang, H. E. Horng, J. J. Chieh, K. L. Chen, H. H. Chen, J. Y. Chen, C. I. Liu, C. W. Liu, and L. M. Wang, “Time-dependent phase lag of biofunctionalized magnetic nanoparticles conjugated with biotargets studied with alternating current magnetic susceptometor for liquid phase immunoassays”, Appl. Phys. Lett. 103. 243703 (2013).
    11. Kuen-Lin Chen, Chin-Wei Hsu, Yue-Bai Ku, Hsin-Hsien Chen, S.H. Liao, Li-Min Wang, Herng-Er Horng, Hong-Chang Yang, “A signal input coil made of superconducting thin film for improved signal-to-noise ratio in a high-Tc SQUID-based ultra-low field nuclear magnetic resonance system”, Supercomd. Sci. Technol. 26, 115008 (2013).
    12. H. C. Yang, L. L. Chiu, S. H. Liao, H. H. Chen, H. E. Horng, C. W. Liu, C. I. Liu, K. L. Chen, M. J. Chen, and L. M. Wang, “Relaxation of biofunctionalized magnetic nanoparticles in ultra-low magnetic fields.”, J. Appl. Phys. 113, 043911(2013).
    13. Hong-Chang Yang, S. H. Liao, Chieh-Wen Liu, Hsin-Hsien Chen, Herng-Er Horng, K. L. Chen, M. J. Chen, Chieh-I Liu, and L. M. Wang “Spin-Spin and Spin-Lattice Relaxation of Protons in Ferrofluids Characterized With a High- Tc SQUID-Based NMR Spectrometer in Microtesla Fields.” IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, VOL. 23, NO. 3, pp.1602804. (JUNE 2013)
    14. Hong-Chang Ynag, Shu-Hsien Liao, Kai-Wen Huang, Herng-Er Horng, Jen-Jie Chieh, Hsin-Hsien Chen, Ming-Jye Chen, Kuen-Lin Chen, and Li-Min Wang, “Enhancing the tumor discrimination using antibody-activated magnetic nanoparticles in ultra-low magnetic fields”,Appl. Phys. Lett. 102. 013119 (2013).
    15. Shu-Hsien Liao, Hsien-Hsien Chen, Yu-Shan Deng, Ming-Wei Wang, K. L. Chen, C. W. Liu, C. I. Liu, Hong-Chang Yang, Herng-Er Horng, J. J. Chieh, and S. Y. Yang, “Microtesla NMR and High Resolution MR Imaging Using High-Tc SQUIDs.” IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, VOL. 23, NO. 3, pp.1602404. (JUNE 2013)
    16. S. H. Liao, Hong-Chang Yang, H. E. Horng, C. W. Liu, H. H. Chen, M. J. Chen, K. L. Chen, C. I. Liu, and L. M. Wang, “Characterizing the field-dependent T1-relaxation and imaging of ferrofluids using high-Tc superconducting quantum interference device magnetometer in low magnetic fields.” Journal of Applied Physics 112, pp. 123908 (2012)
    17. Shu-Hsien Liao, Chieh-Wen Liu, Hong-Chang Yang, Hsin-Hsien Chen, Ming-Jye Chen, Kuen-Lin Chen, Herng-Er Horng, Li-Min Wang, and Shieh-Yueh Yang, “Spin-spin relaxation of protons in ferrofluids characterized with a high-Tc superconducting quantum interference device-detected magnetometer in microtesla fields” Appl. Phys. Lett. 100, pp.232405 (2012)
    18. Hong-Chang Yang, Chieh-Wen Liu, S. H. Liao, Hsin-Hsien Chen, M. J. Chen, K. L. Chen, Herng-Er Horng, a), S. Y. Yang, and L. M. Wang. “Temperature and concentration-dependent relaxation of ferrofluids characterized with a high-Tc SQUID-based nuclear magnetic resonance spectrometer” Appl. Phys. Lett. 100, pp.202405 (2012)