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Nano-Photonics, Plasmonics & Metadevices Laboratory


Project Investigator

Prof. Hui-Hsin Hsiao (蕭惠心)

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Current Appointment 

2018 Assistant Professor, Institute of Electro-optical Science and Technology, National Taiwan Normal University



Doctor of Philosophy (Ph.D.), Graduate Institute of Photonics and Optoelectronics, National Taiwan University (Ranking: 2/24)​


Bachelor of Science (BS), Department of Physics, National Taiwan University (Ranking: 3/71)




Assistant Professor, Graduate Institute of Biomedical Optomechatronics, Taipei Medical University


Post-Doctoral Fellow, Research Center for Applied Sciences, Academia Sinica; Department of Physics, National Taiwan University


Post-Doctoral Fellow, Institute of Theoretical Solid State Physics, Karlsruhe Institute of Technology, Germany


Post-Doctoral Fellow, Graduate Institute of Photonics and Optoelectronics, National Taiwan University

Awards and Honors

  • 2014 Chieh-Shiung Wu Fellowship of the Physical Society of the Republic of China (in recognition of meritorious achievements of female graduate in Physics 

  • 2014 Postdoctoral Research Abroad Program scholarship from the Ministry of Science and Technology 

  • 2015 Postdoctoral Researcher Academic Works Award

Meet Our Team

Welcome to join us


Master student



Master student



Master student

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H.-H. Hsiao et al., “Fundamentals and applications of metasurfaces,” Small Methods, Vol. 1, No. 4, 1600064, 2017. [Selected as front cover article]


H.-H. Hsiao et al., “Giant nonlinearity arising from the vertical split ring resonators,” in Proceedings of SPIE Optics + Photonics, San Diego, California, United States, Aug. 6–10, 2017. [Invited talk]

感謝 2017 COMSOL® CAE應用年會演講邀請 (Nov., 2017)

感謝 2017年第四季OPTO會員聯誼會:光電先進技術商品化進程演講邀請(Dec., 2017)


Research and Publications

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Nano-photonics, plasmonics, and metadevices lab focuses on the study of linear and nonlinear plasmonics, metamaterials and metasurfaces, optoelectronic devices modeling, and quantum optics for plasmonics and metasurfaces.


  1. W.-Y. Tsai, T. L. Chung, H.-H. Hsiao, J.-W. Chen, R. J. Lin, P. C. Wu, G. Sun, C.-M. Wang, H. Misawa, and D. P. Tsai, “Second Harmonic Light Manipulation with Vertical Split Ring Resonators,” Advanced Materials, 1806479, 2018. (IF: 21.95, 2/147)

  2. M. L. Tseng, H.-H. Hsiao, C. H. Chu, M. K. Chen, G. Sun, A.-Q. Liu, and D. P. Tsai, “Metalenses: Advances and Applications,” Advanced Optical Materials, 1800554, 2018. (IF: 7.43, 6/94)

  3. P.-K. Shih, H.-H. Hsiao, and H.-C. Chang, “Leaky property of the Dyakonov-like wave at the surface of a semi-infinite metal-dielectric multilayered structure,” Optics Express, Vol. 26, No. 12, pp. 15559–15569, 2018. (IF: 3.356, 19/94)

  4. M.-R. Tang, H.-H. Hsiao, C.-H. Hong, W.-L. Huang, and S. C. Lee, “An uncooled LWIR-detector with LSPR enhancement and selective narrow absorption,” IEEE Photonics Technology Letters, Vol. 30, No. 13, pp. 1206–1209, 2018. (IF: 2.446, 32/94) 

  5. K. Wang, R. Li, H.-H. Hsiao, L. Chen, H. Zhang, and J. Chen, “Ultrafast active control of UV light with plasmonic resonance on aluminum nanostripes,” Applied Physics Letters, Vol. 112, No. 19, pp. 191107-1–191107-5, 2018. (IF: 3.495, 29/146)

  6. H-H. Hsiao, Y. H. Chen, R. J. Lin, P. C. Wu, S. Wang, B. H. Chen, and D. P. Tsai, “Integrated resonant unit of metasurfaces for broadband efficiency and phase manipulation,” Advanced Optical Materials, Vol. 6, No. 12, 1800031, 2018. (IF: 7.43, 6/94) [Selected as inside front cover article]

  7. H.-C. Wang, C. H. Chu, P. C. Wu, H.-H. Hsiao, H. J. Wu, J.-W. Chen, W. H. Lee, Y.-C. Lai, Y.-W. Huang, M. L. Tseng, S.-W. C., and D. P. Tsai, “Ultrathin planar cavity metasurface,” Small, Vol. 14, No. 17, 1703920, 2018. (IF: 9.598, 10/146)

  8. H.-H. Hsiao, C. H. Chu, and D. P. Tsai, “Fundamentals and applications of metasurfaces,” Small Methods, Vol. 1, No. 4, 1600064, 2017. [Selected as front cover article]

  9. P.-K. Shih, H.-H. Hsiao, and H.-C. Chang, “Determination of dissipative Dyakonov surface waves using a finite element method based eigenvalue algorithm,” Optics Express, Vol. 25, No. 24, pp. 30276–30289, 2017. (IF: 3.356, 19/94)

  10. W.-L. Huang, H.-H. Hsiaoa, C.-Y. Lina, M.-R. Tang, and S.-C. Lee, “Waveguide resonances with selectable polarization in an infrared thermal emitter,” AIP Advances, Vol. 7, No. 8, pp.  085122-1–085122-8, 2017. (IF: 1.653, 81/146) (a: equally contribute)

  11. M. M. Dvoynenko, H.-H. Wang, H.-H. Hsiao, Y.-L. Wang and J.-K. Wang, “Study of signal-to-background ratio of surface-enhanced Raman scattering: Dependences on excitation wavelength and hot-spot gap,” Journal of Physical Chemistry C, Vol. 121, No. 47, 26438–26445, 2017. (IF: 4.484, 54/285)

  12. K. Wang, L. Chen, H. Zhang, H.-H. Hsiao, D. P. Tsai, and J. Chen, “Plasmon-enhanced optical nonlinearity for femtosecond all-optical switching,” Applied Physics Letters, Vol. 111, No. 18, pp. 181102-1–181102-4, 2017. (IF: 3.495, 29/146)

  13. H.-H. Hsiao, A. Abass, J. Fischer, R. Alaee, A. Wickberg, M. Wegener, and C. Rockstuhl, “Enhancement of second-harmonic generation in nonlinear nanolaminate metamaterials by nanophotonic resonances,” Optics Express, Vol. 24, No. 9, pp. 9651–9659, 2016. (IF: 3.356, 19/94)

  14. W.-L. Huang, H.-H. Hsiao, M.-R. Tang, and S.-C. Lee, “Triple-wavelength infrared plasmonic thermal emitter using hybrid dielectric materials in periodic arrangement,” Applied Physics Letters, Vol. 109, No. 6, pp. 063107-1–063107-5, 2016. (IF: 3.495, 29/146)

  15. H.–H. Hsiao, S.-M. Chiou, Y.-P. Chang, and H.-C. Chang, “Broadly Tuning Resonant Wavelengths of Contour Bowtie Nano-Antennas Operating in the Near- and Mid-Infrared,” IEEE Photonics Journal, Vol. 7, No. 4, pp. 4501108, 2015. (IF: 2.627, 27/94)

  16. H.-H. Hsiao, H.-C. Chang, and Y.-R. Wu, “Design of anti-ring back reflectors for thin-film solar cells based on three-dimensional optical and electrical modeling,” Applied Physics Letters, Vol. 105, no. 6, pp. 061108-1–061108-5, 2014. (IF: 3.495, 29/146)

  17. H.-H. Hsiao, P.-C. Yeh, H.-H. Wang, T.-Y. Cheng, H.-C. Chang, Y.-L. Wang, and J.-K. Wang, “Enhancing Bright-Field Image of Microorganisms by Local Plasmon of Ag Nanoparticle Array,” Optics Letters, Vol. 39, No. 5, pp. 1173–1176, 2014. (IF: 3.589, 14/94)

  18. H.-H. Hsiao and H.-C. Chang, “Prediction of Transmission Shape-Resonances in Aperture Arrays with One- or Twofold Mirror-Symmetry Based on a Near-Field Phase Property,” IEEE Journal of Quantum Electronics, Vol. 50, No. 4, pp. 287–294, 2014. (IF: 2.069, 60/146)

  19. H.-H. Chen, H.-H. Hsiao, H.-C. Chang, W.-L. Huang, and S.-C. Lee, “Double Wavelength Infrared Emission by Localized Surface Plasmonic Thermal Emitter,” Applied Physics Letters, Vol. 104, No. 8, pp. 083114-1–083114-4, 2014. (IF: 3.495, 29/146)

  20. P.-Y. Chen, H.-H. Hsiao, C.-I. Ho, C.-C. Ho, W.-L. Lee, H.-C. Chang, S.-C. Lee, J.-Z. Chen, and I.-C. Cheng, “Periodic anti-ring back reflectors for hydrogenated amorphous silicon thin-film solar cells,” (OSA) Optics Express, Vol. 22, No. S4, pp. A1128–A1136, 2014. (IF: 3.356, 19/94)

  21. S.-C. Yang, P.-K. Wei, H.-H. Hsiao, P. A. Mante, Y.-R. Huang, I-J. Chen, H.-C. Chang and C.-K. Sun, “Enhanced detection sensitivity of higher-order vibrational modes of gold nanodisks on top of a GaN nanorod array through localized surface plasmons,” Applied Physics Letters, Vol. 105, no. 21, pp. 211103-1–211103-5, 2014. (IF: 3.495, 29/146)

  22. H.-H. Hsiao, H.-F. Huang, S.-C. Lee, and H.-C. Chang, “Investigating Far-Field Spectra and Near-Field Features of Extraordinary Optical Transmission through Periodic U to H Shaped Apertures,” IEEE Photonics Journal, Vol. 4, No. 2, pp. 387–398, 2012. (IF: 2.627, 27/94)

  23. Y.-C. Chen, H.-H. Hsiao, C.-T. Lu, Y.-T. Chang, H.-H. Chen, F.-T. Chuang, S.-Y. Huang, C.-W. Yu, H.-C. Chang, and S.-C. Lee, “Effect of Paired Apertures in a Periodic Hole Array on Higher Order Plasmon Modes,” IEEE Photonics Technology Letters, Vol. 24, No. 22, pp. 2052–2055, 2012. (IF: 2.446, 32/94)

  24. S.-C. Yang, H.-P. Chen, H.-H. Hsiao, P.-K. Wei, H.-C. Chang, and C.-K. Sun, “Near-field Dynamic Study of the Nanoacoustic Effect on the Extraordinary Transmission in Gold Nanogratings,” (OSA) Optics Express, Vol. 20, No. 15, pp. 16186–16194, 2012. (IF: 3.356, 19/94)

  25. S.-Y. Huang, H.-H. Chen, H.-H. Hsiao, P.-E. Chang, Y.-T. Chang, C.-H. Chen, Y.-W. Jiang, H.-C. Chang, and S.-C. Lee, “Triple Peaks Plasmonic Thermal Emitter with Selectable Wavelength Using Periodic Block Pattern as Top Layer,” IEEE Photonics Technology Letters, Vol. 24, No. 10, pp. 833–835, 2012. (IF: 2.446, 32/94)

  26. S.-Y. Huang, H.-H. Hsiao, Y.-T. Chang, H.-H. Chen, Y.-W. Jiang, H.-F. Huang, P.-E. Chang, H.-C. Chang, and S.-C. Lee, “Extraordinary Transmission Through a Silver Film Perforated with Bowtie-shaped Aperture Array in Midinfrared Region,” Applied Physics Letters, Vol. 98, No. 25, pp. 253107-1–253107-3, 2011. (IF: 3.495, 29/146)

  27. B.-Y. Lin, C.-H. Teng, H.-C. Chang, H.-H. Hsiao, J.-K. Wang, and Y.-L. Wang, “Pseudospectral Modeling of Nano-Optics in Ag Sphere Arrays,” Journal of Scientific Computing, Vol. 45, No. 1–3, pp. 429–446, 2010. (Special Issue in Memory of Professor David Gottlieb) (IF: 1.814, 39/252)

Book Chapter

H.-H. Hsiao and D. P. Tsai, Plasmonic metasurfaces (Elsevier, Encyclopedia of Interfacial Chemistry: Surface Science and Electrochemistry, Chapter 13248, 2017).

Contact Us

No. 88, Sec. 4, Tingchou Road, Taipei 11677, Taiwan


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