國立中興大學電機工程學系 Department of Electrical Engineering

首頁師資介紹電子組 蔡宛卲教授

蔡宛卲教授 - 電子組

電話

+886-4-22840138 ext. 840

E - Mail

wstsai@nchu.edu.tw

實驗室

奈米光子學實驗室(應科大樓840)

最高學歷

國立台灣大學電子工程博士

重要經歷

國立中興大學電機工程學系暨光電工程研究所教授自 2023/08 至迄今
國立中興大學電機工程學系暨光電工程研究所副教授自 2019/02 至 2023/07
國立暨南國際大學應用材料及光電工程學系副教授自 2015/02 至 2019/01
國立暨南國際大學應用材料及光電工程學系助理教授自 2008/08 至 2015/01
德國阿亨工業大學(RWTH)半導體電子所訪問研究自 2007/09 至 2008/07

研究領域

1. 光學波導
2. 元件製程
3. 光學量測
4. 數值模擬

學術服務

SCI期刊論文審查委員
-IEEE Journal of Selected Topics in Quantum Electronics
-IEEE Photonics Technology Letters
-IEEE Photonics Journal
-Journal of Lightwave Technology
-Optics Express
-Optics Letters
-Applied Optics
-Optical Materials Express
-ACS Photonics
-Ceramics International
-OSA Continuum
-Optics Communications
-Journal of Modern Optics
-PIER & JEMWA
-JOSA B
-Scientific Reports

國際會議議程委員/場次主席/論文評審
-Optics & Photonics Taiwan International Conference (OPTIC) 2012-2014, 2017, 2019-2023
-International Electron Devices and Materials Symposium (IEDMS)2013
-Asia-Pacific Radio Science Conference 2013(AP-RASC'13)

榮譽獎勵

IEEE Senior Member (2021)
OSA Senior Member (2021)
109、111學年度中興大學電資學院優良導師獎
106學年度暨南大學教學績優獎
102學年度暨南大學優良導師獎
97年斐陶斐榮譽會員

學術著作

● 期刊論文

W.-H. Yong, L. Shen, Y.-C. Hou, C.-H. Lai, and W.-S. Tsai*, “High-throughput imaging and spectral analysis of gold nanoparticles through waveguide excitation,” IEEE Sensors Journal, vol. 22, no. 22, pp. 21642-21650, 11 2022. (SCI)

C.-W. Kuo, S.-H. Wang, S.-C. Lo, W.-H. Yong, Y.-L. Ho, J.-J. Delaunay, W.-S. Tsai, and P.-K. Wei*, “Sensitive oligonucleotide detection using resonant coupling between Fano resonance and image dipoles of gold nanoparticles,” ACS Applied Materials & Interfaces, vol. 12, no. 14, pp. 14012–14024, 03 2022. (SCI)

W.-S. Tsai*, L. Shen, Y.-C. Hou, and T.-S. Lay, “Polarization-controlled single-particle scattering imaging spectroscopy using waveguide excitation,” Optics Express, vol. 4, no. 30, pp. 4875-4885, 02 2022. (SCI)

S. Donati* and W.-S. Tsai, “Transforming a green laser pointer in a selfmixing interferometer capable of sub-μm vibration sensing,” Applied Optics, vol. 21, no. 60, pp. 6251-6254, 07 2021. (SCI)

D. H. Nguyen, J.-Y. Sun, C.-Y. Lo, J.-M. Liu, W.-S. Tsai, M.-H. Li, S.-J. Yang, C.-C. Lin, S.-D. Tzeng, Y.-R. Ma, M.-Y. Lin, and C.-C. Lai*, “Ultralow-threshold continuous-wave room-temperature crystal-fiber/nanoperovskite hybrid lasers for all-optical photonic integration,” Advanced Materials, vol. 12, no. 33, pp. 2006819, 02 2021. (SCI)

Y.-P. Chen, C.-C. Lai, and W.-S. Tsai*, “Full-color based on bismuth core-shell nanoparticles in one-step fabrication,” Optics Express, vol. 17, no. 18, pp. 24511-24525, 08 2020. (SCI)

S.-C. Lo, E.-H. Lin, K.-L. Lee, T.-T. Liang, J.-C. Liu, P.-K. Wei, and W.-S. Tsai*, “A concave blazed-grating based smartphone spectrometer for multichannel sensing,” IEEE Sensors Journal, vol. 23, no. 19, pp. 11134-11141, 12 2019. (SCI)

S.-T. Huang, C.-C. Lai, F.-W. Sheu, and W.-S. Tsai*, “Characterization of long-range plasmonic waveguides at visible to near-infrared regime,” AIP Advances, no. 7, pp. 125221, 12 2017. (SCI)

C.-W. Hsu, C.-F. Huang, W.-S. Tsai, and W.-S. Wang*, “Lithium niobate polarization independent modulator using integrated polarization splitters and mode converters,” Journal of Lightwave Technology, vol. 9, no. 35, pp. 1663-1669, 05 2017. (SCI)

10.

E.-H. Lin, W.-S. Tsai, K.-L. Lee, M.-C. M. Lee, and P.-K. Wei*, “Enhancing angular sensitivity of plasmonic nanostructures using mode transition in hexagonal gold nanohole arrays,” Sensors and Actuators B: Chemical, no. 241, pp. 800-805, 03 2017. (SCI)

11.

S.-C. Lo, E.-H. Lin, P.-K. Wei, and W.-S. Tsai*, “A compact imaging spectroscopic system for biomolecular detections on plasmonic chips,” Analyst, no. 141, pp. 6126-6132, 11 2016. (SCI)

12.

C.-C. Lai*, C.-Y. Lo, T.-H. Hsieh, W.-S. Tsai, D. H. Nguyen, and Y.-R. Ma, “Ligand-driven and full-color-tunable fiber source: toward next-generation clinic fiber-endoscope tomography with cellular resolution,” ACS Omega, no. 1, pp. 552-565, 10 2016. (SCI)

13.

C.-C. Lai*, C.-Y. Lo, D. H. Nguyen, J.-Z. Huang, W.-S. Tsai, and Y.-R. Ma, “Atomically smooth hybrid crystalline-core glass-clad fibers for low-loss broadband wave guiding,” Optics Express, vol. 18, no. 24, pp. 20089-20106, 09 2016. (SCI)

14.

W.-S. Tsai*, T.-Y. Chiang, L.-Y. Liu, P.-C. Chang, and Y.-K. Su, “Time and temperature dependent study of Zn and Ni codiffused LiNbO3 waveguides,” Journal of Lightwave Technology, vol. 23, no. 33, pp. 4950-4956, 12 2015. (SCI)

15.

M.-Y. Pan, K.-L. Lee, W.-S. Tsai, L. Wang, and P.-K. Wei*, “Determination of the effective index and thickness of biomolecular layer by Fano resonances in gold nanogrid array,” Optics Express, vol. 17, no. 23, pp. 21596-21606, 08 2015. (SCI)

16.

C.-F. Huang, C.-H. Kang, H.-L. Chen, W.-S. Tsai, and W.-S. Wang*, “Lithium niobate polarization splitter fabricated by using one-step diffusion,” IEEE Photonics Technology Letters, vol. 10, no. 27, pp. 1037-1039, 05 2015. (SCI)

17.

W.-S. Tsai*, B.-J. Huang, and F.-W. Sheu, “Improvement of refractive index profiling of a small-core single-mode fiber under partially coherent light excitation,” Optics Communications, no. 336, pp. 88-92, 02 2015. (SCI)

18.

W.-S. Tsai*, Y.-H. Liu, O. Barkman, V. Prajzler, S. Stanek, and P. Nekvindova, “Burying of channel optical waveguides: relation between near-field measurement and Ag concentration profile,” Proceedings of SPIE 9450, Photonics, Devices, and Systems VI, vol. 945015, no. 9450, 01 2015. (EI)

19.

E.-H. Lin, W.-S. Tsai, K.-L. Lee, M.-C. M. Lee, and P.-K. Wei*, “Enhancing detection sensitivity of metallic anostructures by resonant coupling mode and spectral integration analysis,” Optics Express, vol. 16, no. 22, pp. 19621-19632, 08 2014. (SCI)

20.

W.-S. Tsai, C.-K. Chang, F.-W. Sheu*, Y.-H. Wang, and S.-H. Chen, “Refractive index profiling of a few-mode fiber from fundamental mode excitation,” Optics Communications, no. 323, pp. 138-142, 07 2014. (SCI)

21.

W.-S. Tsai*, K.-L. Lee, M.-Y. Pan, and P.-K. Wei, “Increased detection sensitivity of surface plasmon sensors using oblique induced resonant coupling,” Optics Letters, vol. 23, no. 38, pp. 4962-4965, 12 2013. (SCI)

22.

W.-S. Tsai* and P.-K. Wei, “Refractive index profiling of metal-diffused planar waveguides using a differential near-field optical microscopy,” PIERS 2013 in Taipei Proceedings, vol. 183-186, 03 2013. (EI)

23.

W.-S. Tsai, S.-Y. Ting and P.-K. Wei*, “Refractive index profiling of an optical waveguide from the determination of the effective index with measured differential fields,” Optics Express, vol. 24, no. 20, pp. 26766-26777, 01 2012. (SCI)

24.

W.-S. Tsai, S.-C. Piao and P.-K. Wei*, “Refractive index measurement of optical waveguides using modified end-fire coupling method,” Optics Letters, vol. 11, no. 36, pp. 2008-2010, 06 2011. (SCI)

25.

T. Wahlbrink*, W.-S. Tsai, M. Waldow, M. Forst, J. Bolten, T. Mollenhauer and H. Kurz, “Fabrication of high efficiency SOI taper structures,” Microelectronics Engineering, no. 86, pp. 1117-1119, 05 2009. (SCI)

26.

W.-S. Tsai, L.-Y. Chen, and W.-S. Wang*, “Study of the fabrication of BCB waveguide devices by ultraviolet pulsed-laser illumination,” IEEE Photonics Technology Letters, vol. 2, no. 20, pp. 84-86, 01 2008. (SCI)

27.

W.-S. Tsai, W.-S. Wang, and P.-K. Wei*, “Two-dimensional refractive index profiling by using differential near-field scanning optical microscopy,” Applied Physics Letters, no. 91, pp. 061123, 08 2007. (SCI)

28.

L.-Y. Chen, W.-S. Tsai, W.-H. Hsu, and W.-S. Wang*, “Fabrication and characterization of benzocyclobutene optical waveguides by UV pulsed-laser illumination,” IEEE Journal of Quantum Electronics, vol. 3, no. 43, pp. 303-310, 03 2007. (SCI)

● 專利

韓斌、鄭木海、裴靜偉、蔡宛卲、蔡政穆、劉浚年, “同軸光路的光學雷達,” 中華民國專利：證書號 I744209, 10 2021.