Yu-Sheng Lin

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Professor

Ph.D., Nano/Micro-electro-mechanical System, National Tsing Hua University, Taiwan, China

Experience: National University of Singapore, Sun Yat-sen University

Email:

Professional experience from technology R&D to product mass production: 

Familiar with semiconductors, integrated circuit, MEMS and optoelectronic chip integration technology, design and manufacture of various N/MEMS sensor chips, including pressure sensor, optical sensor, proximity sensor, gas sensor, MEMS scanning mirror, optical switch and VOA, microfluidic and other related devices and chips.

Present Occupation:

  1. 2025-present, Board Member of the International Association of Advanced Materials (IAAM) South China Chapter.
  2. 2024-present, Associate Editor of International Journal of Optomechatronics.
  3. 2022-present, Topical Advisory Panel Member for Journal of Micromachines.
  4. 2021-present, Project Reviewer of Key Research and Development Projects of French National Research Agency (ANR).
  5. 2019-present, Project Reviewer of Science & Engineering Research Council (SERC), Agency for Science, Technology and Research (A*STAR) in Singapore.
  6. 2018-present, Evaluation Expert of Department of Science and Technology of Guangdong Provincial.

Awards or honors:

  1. Sichuan Provincial Talent Plan – Innovative Leading Talent.
  2. Awarded Highly Ranked Scholar by ScholarGPS (Global Big Data Center for Scientists) in 2025, ranking among the top 0.05% of scholars in the world; Ranked 2nd in the world in the field of metamaterials.
  3. Awarded Top Scholar by ScholarGPS (Global Big Data Center for Scientists) in 2024, ranking among the top 0.5% of scholars in the world; Ranked 22nd in the world in the field of metamaterials.
  4. 2023, International Association of Advanced Materials (IAAM) Fellow.
  5. 2022, International Association of Advanced Materials (IAAM) Scientist Award, headquarters: Sweden.
  6. 2021, Editor-in-Chief Choice Award of Photonics Research (Photonics Research, 2021, 9(7): 1409)

Research interested fields: 

N/MEMS sensors; tunable metamaterials; nanophotonics; nanomaterials; microfluidics

SCI publications: >150 / 1st & corresponding authors: >133 / H-index: 43

Representative publications10

  1. K. Li, Xi Li, and Y.-S. Lin*, “Reconfigurable MEMS-based perfect meta-absorber with ultrahigh-Q and angle-dependent characteristics for sensing applications,” Laser Photon. Rev., vol.2500288, pp.1-12, 2025. (IF: 9.800, Q1 top)
  2. X. Gao, Y. Liu, H. Chen, Y.-S. Lin*, and X. Chen*, “All-dielectric bifocal metalens with diffraction-limited focusing and polarization-dependent characteristics,” Int. J. Mech. Sci., vol.286, pp.109916, 2025. (IF: 7.100, Q1 top)
  3. K. Li, Y. Liang, Y. Liu, and Y.-S. Lin*, “Tunable MEMS-based meta-absorbers for nondispersive infrared gas sensing applications,” Microsyst. Nanoeng., vol.11(2), pp.1-13, 2025. (IF: 7.300, Q1 top)
  4. Y. Liu and Y.-S. Lin*, “Stretchable dual-axis terahertz bifocal metalens with flexibly polarization-dependent focal position and direction,” ACS Appl. Mater. Interfaces, vol.16(26), pp.34338-34348, 2024. (IF: 9.500, Q1)
  5. D. Zheng and Y.-S. Lin*, “Angular Dispersive Narrowband Absorption Induced by Quasi-BIC in SiO2-Au Metamaterial,” Small Struct., vol.5, pp.2300529, 2024. (IF: 15.900, Q1)
  6. D. Zheng, W. Huang, K. Chen, and Y.-S. Lin*, “Visible Metamaterial Using Lithium Niobate Nanoring Structure for Stretchable Color Sensing Application,” ACS Mater. Lett., vol.5, pp.1831-1840, 2023. (IF: 11.170, Q1)
  7. D. Zheng, Y. Wen, X. Xu, and Y.-S. Lin*, “Metamaterial Grating for Colorimetric Chemical Sensing Applications,” Mater. Today Phys., vol.33, pp.101056, 2023. (IF: 11.021, Q1 top)
  8. X. Xu, D. Zheng, and Y.-S. Lin*, “Electric Split-Ring Metamaterial Based Microfluidic Chip with Multi-Resonances for Microparticle Trapping and Chemical Sensing Applications,” J. Colloid Interface Sci., vol.642, pp.462-469, 2023. (IF: 9.965, Q1)
  9. R. Xu, X. Xu, B.-R. Yang, X. Gui, Z. Qin, and Y.-S. Lin*, “Actively Logical Modulation of MEMS-Based Terahertz Metamaterial,” Photonics. Res., vol.9(7), pp.1409-1415, 2021. (IF: 7.080, Q1 top, Highly Cited Papers, 2021 Editor-in-Chief Choice Award)
  10. R. Xu and Y.-S. Lin*, “Flexible and controllable metadevice using self-assembly MEMS actuator,” Nano Lett., vol.21(7), pp.3205-3210, 2021. (IF: 11.189, Q1 top)

Teaching undergraduate courses:

  1. ECE 0401 Analytical Methods
  2. ECE 1259 Electromagnetics
  3. ECE 1247 Semiconductor Device Theory