SCUPI

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. 2024, ScholarGPS Top Scholars, ranking among the top 0.5% of global scholars; Ranked 22nd in the world in the metamaterials field
2. 2023, International Association of Advanced Materials (IAAM) Fellow in Sweden.
3. 2022, International Association of Advanced Materials (IAAM) Scientist Award in Sweden.
4. 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: >144 / 1st & corresponding authors: >127 / H-index: 43

Representative publications: 10

1. 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)
2. 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)
3. 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)
4. 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)
5. 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)
6. 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)
7. 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)
8. 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)
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, Highly Cited Papers, 2021 Editor-in-Chief Choice Award)
10. Z. Xu and Y.-S. Lin*, “A stretchable terahertz parabolic-shaped metamaterial,” Adv. Opt. Mater., vol.7(19), pp.1900379, 2019. (IF: 7.125)

Teaching undergraduate courses:

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