副教授

Personal Information (Dr. Yu-Sheng Lin):?
E-mail:?linyoush@mail.sysu.edu.cn
中国台湾国立清华大学纳米工程与微系统研究所? 工学博士
PhD. Institute of NanoEngineering and MicroSystems, National Tsing Hua University (NTHU), Taiwan，China.
新加坡国立大学电机与计算机工程系? 资深研究员
Senior Research Fellow，Department of Electrical and Computer Engineering, National University of Singapore (NUS), Singapore.
工作经历(依时间排序) (Work Experience Sorted by Time):
1. 亚太优势微系统(股)有限公司(中国台湾)，负责光学微机电器件设计。
Department of Optical Communication, Asia Pacific Microsystems (APM), Inc. Hsinchu, Taiwan, China, Responsible for the design of optical MEMS devices.
2. 联华电子(股)有限公司(中国台湾)，负责90 nm CMOS刻蚀制程工艺设计与研发。
Department of Etching Process, United Microelectronics Corporation (UMC), Hsinchu, Taiwan, China, Responsible for the design and development of CMOS etching process for 90 nm product line.
3. 旺宏电子(股)有限公司(中国台湾)，负责0.13 μm与0.18 μm产品线。
Department of Process Integration, Macronix International Co., Ltd. (MXIC), Hsinchu, Taiwan, China, Responsible for 0.13 μm and 0.18 μm product lines.
4. 新加坡国立大学(新加坡)，负责CMOS-MEMS制程平台建成与验证；CMOS制程工艺技术实现三维可调控超材料；Fabry-Perot光学器件。
Department of Electrical and Computer Engineering, National University of Singapore (NUS), Singapore, Responsible for CMOS-MEMS process platform; CMOS process technology for 3D tunable metamaterials; Fabry-Perot optical device.
5. 日月光半导体封装测试(股)有限公司(上海)，负责APPLE公司的i-watch、WIFI模块封装制程研发、新制程评估与导入。
Advanced Semiconductor Engineering (ASE), Inc., Shanghai, China, Responsible for the R&D, evaluation and import of APPLE i-Watch and WIFI module packaging process.
6. 中国科学院苏州纳米技术与纳米仿生研究所，负责光学微机电(optical MEMS)芯片与微流控(microfluidic)芯片在生医领域的集成与应用。
Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences (CAS), China, Responsible for the integration and application of optical MEMS chip and Microfluidic chip in the biomedical engineering field.
7.中山大学电子与信息工程学院, 副教授。
School of Electronics and Information Technology, Sun Yat-Sen University (SYSU), Guangzhou, China, Associate Professor.

学术兼职和社会服务:
Academic Part-Time and Social Services:
1. 主题编辑(Topic Editor)与客座编辑(Guest Editor)：Micromachines (IF: 2.523)
https://www.mdpi.com/journal/micromachines/topic_editors?;?
https://www.mdpi.com/journal/micromachines/special_issues/Photonics_Metamaterials
2. SCI学术期刊与国际会议论文审稿人:
Advanced Optical Materials, Small, Nanoscale, Scientific Reports, Applied Surface Science，IEEE PTL, RSC Advances, Sensors, Surface Science、Optics Letters, Applied Optics, Biomedical Microdevices, Optical MEMS and Nanophotonics, IEEE NEMS 等top期刊与国际会议审稿人。
Reviewer of SCI peer-reviewed journal and international conference papers (SCI indexed and EI indexed):
Advanced Optical Materials，Small, Nanoscale, Scientific Reports, Applied Surface Science, IEEE PTL, RSC Advances, Sensors, Surface Science, Optics Letters, Applied Optics, Biomedical Microdevices, IEEE JMEMS, IEEE Optical MEMS and Nanophotonics, IEEE NEMS, etc.
3. 国际会议委员会成员(International Conference Committee Members):
2020年国际物理与工程数学会议, 9月19-20日, 北京, 中国。
2020 International Conference on Physics and Engineering Mathematics (ICPEM 2020), 19-20, Sep. 2020, Beijing, China,
?2020年第25届IEEE 光电子与通信国际会议，10月4-8日，台北，中国台湾。
2020 25th Optoelectronics and Communications Conference (OECC 2020), 4-8, Oct. 2020, Taipei, Taiwan, China.
2020年第15届IEEE 纳米/微工程和分子系统国际会议，4月20-24日，圣地亚哥，美国。
2020 IEEE 15th Annual International Conference on Nano/Micro Engineered and Molecular Systems (IEEE_NEMS), 20-24, Apr. 2020, San Diego, USA.
2019年第14届IEEE 纳米/微工程和分子系统国际会议，4月11-14日，曼谷，泰国。
2019 IEEE 14th Annual International Conference on Nano/Micro Engineered and Molecular Systems (IEEE_NEMS), 11-14, Apr. 2019, Bangkok, Thailand.
2018年第13届IEEE 纳米/微工程和分子系统国际会议，4月22-26日，新加坡。
2018 IEEE 13th Annual International Conference on Nano/Micro Engineered and Molecular Systems (IEEE_NEMS), 22-26, Apr. 2018, Singapore.
4. 评审委员:
广东省科学技术厅专家评审委员。
? ? ? ? ? ? Evaluation Expert of Department of Science and Technology of Guangdong Provincial.
新加坡科技研究局科学与工程研究委员会项目评审委员。
? ? ? ? ? ? Project Reviewer of Science & Engineering Research Council (SERC), Agency for Science, Technology and Research (A*STAR) in Singapore.
法国国家研究总署重点研发项目评审委员。
? ? ? ? ? ? Reviewer of Key Research and Development Projects of French National Research Agency (ANR).

授课课程:
Teaching Courses:?
开设本科生课程:
电磁场理论 (Electromagnetic Field Theory)
量子力学 (Quantum Mechanics)
光电器件集成技术 (Optoelectronic Device Integration Technology)
大学物理实验(I) (Experiment of College Physics I)
科研学术路线与公司产业路线的通识(Academic Research vs. Company Industrial Development: General Guidelines)-
产业链与趋势分析 (Industrial Chain and Trend Analysis)
公司文化与组织架构 (Corporate Culture and Organizational Structure)
半导体产业 (Semiconductor Industry)
微机电产业 (MEMS Industry)
开设研究生课程：
光电集成工艺与技术 (Fabrication and Technology of Optoelectronic Device Integration)


研究方向:
Research interests:
纳微米机电系统工程（N/MEMS）:
1. 新型纳微米机电致动器设计，如电热式致动器、双向致动器、梳状式致动器、抓爬式致动器等实现各种能主动调控的光学器件应用。
2. 光学纳微米机电器件，如光开关、可调变光衰减器、可调变滤波器等，实现高效率、高精度且大范围调控的光学应用。
3. 光学纳微米机电器件设计与仿真。
可调控超材料(Tunable Metamaterials) :
1. 可调控超材料结构设计制作，实现在可见光、红外光与太赫兹光谱范围能主动调控的滤波器、吸收器与传感器应用。
2. 可调控超材料设计与仿真。
表面等离子体光子学(Plasmonics/Photonics) :
1. 表面等离激元与光子晶体于不同基底的设计与制作，实现可主动调控的可见光、红外光与太赫兹器件。
2. 表面等离激元与光子晶体设计与仿真。
微流控芯片(Microfluidic Chip):
光学微机电(optical MEMS)芯片与微流控(microfluidic)芯片在生医领域的集成与应用。
?**诚挚欢迎研究生与本科生加入实验室，共同为科研努力！**

科研项目:
Fundings:
广东省自然科学基金面上项目，2021/01-2023/12, 在研，主持。
国家重点研发计划，2020/01-2024/12, 在研，参加。
中山大学****引进人才启动经费，2017.02-2019.12。

代表性科研成果:
Publications:?国际期刊论文著作列表(Journal & Letter Articles, IF: 发表当年度的影响因子)：84 / 通讯作者: 56 / ESI热点论文：1 / 高被引论文: 3 / 主编精选文章: 3
2021(8)：
R. Xu, X. Xu, and Y.-S. Lin*, “Actively Logical Modulation of MEMS-Based Terahertz Metamaterial,” Photonics. Res., to be published, 2021. (IF: 6.099, 唯一通讯作者)
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: 11.238, 唯一通讯作者)
X. Xu, R. Xu, and Y.-S. Lin*, “Tunable Terahertz Double Split-Ring Metamaterial with Polarization-Sensitive Characteristic,” Opt. Laser Technol., vol.141, pp.107103, 2021. (IF: 3.233, 唯一通讯作者)
Y. Wen, K. Chen, and Y.-S. Lin*, “Terahertz metamaterial resonator with tunable Fano-resonance characteristic,” Results Phys., vol.23, pp.104049, 2021. (IF: 4.019, 唯一通讯作者)
T. Xu, X. Xu, and Y.-S. Lin*, “Tunable Terahertz Free Spectra Range Using Electric Split-Ring Metamaterial,” IEEE J. Microelectromech. Syst., vol.30(2), pp.309-314, 2021. (IF: 2.534, 唯一通讯作者)
Y. Zhang, P. Lin, and Y.-S. Lin*, “Tunable Split-Disk Metamaterial Absorber for Sensing Application,” Nanomaterials, vol.11(3), pp.598, 2021. (IF: 4.324, 唯一通讯作者)
Y. Wen, Z. Liang, and Y.-S. Lin*, “Tunable Perfect Meta-Absorber with High-Sensitive Polarization Characteristic,” Adv. Photon. Research., vol.2, pp.**, 2021. (唯一通讯作者)
F. Zhu and Y.-S. Lin*, “Programmable Multidigit Metamaterial Using Terahertz Electric Spilt-Ring Resonator,” Opt. Laser Technol., vol.134, pp.106635, 2021. (IF: 3.233, 唯一通讯作者)
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2020(27)：
Y. Han, J. Lin, and Y.-S. Lin*, “Tunable Metamaterial-Based Silicon Waveguide,” Opt. Lett., vol.45(24), pp.6619-6622, 2020. (IF: 3.714, 唯一通讯作者) (主编精选文章)
T. Xu, R. Xu, and Y.-S. Lin*, “Tunable Terahertz Metamaterial Using Electrostatically Electric Split-Ring Resonator,” Results Phys., vol.19, pp.103638, 2020. (IF: 4.019, 唯一通讯作者)
Y.-S. Lin* and Z. Xu, “Reconfigurable Metamaterials for Optoelectronic Applications,” Int. J. Optomechatroni., vol.14(1), pp.78-93, 2020. (Review Article. IF: 0.818, 第一作者和唯一通讯作者)
F. Lu, H. Ou, and Y.-S. Lin*, “Reconfigurable Terahertz Switch Using Flexible L-shaped Metamaterial,” Opt. Lett., vol.45(23), pp.6482-6485, 2020. (IF: 3.714, 唯一通讯作者)
D. Zheng and Y.-S. Lin*, “Tunable Dual-Split-Disk Resonator with Electromagnetically Induced Transparency Characteristic,” Adv. Mater. Technol., vol.5, pp., 2020. (IF: 5.969, 唯一通讯作者)
Z. He, L. Wang, G. Liu, Y. Xu, Z. Qiu, M. Zhong, X. Li, X. Gui, Y.-S. Lin, Z. Qin, J. Wu, X. Xie, C. Liu, and B.-R. Yang, “Constructing Electrophoretic Displays on Foldable Paper-Based Electrodes by a Facile Transferring Method,” ACS Appl. Electron. Mater., vol.2, pp.1335-1342,2020.
Y. Liao and Y.-S. Lin*, “Reconfigurable Terahertz Metamaterial Using Split-Ring Meta-Atoms with Multifunctional Electromagnetic Characteristics,” Appl. Sci., vol.10, pp.5267, 2020. (IF: 2.474, 唯一通讯作者)
X. Hu and Y.-S. Lin*, “Programmable Terahertz Metamaterial with Multiple Logic Characteristics,” Results Phys., vol.18, pp.103267, 2020. (IF: 4.019, 唯一通讯作者)
R. Xu and Y.-S. Lin*, “Tunable Infrared Metamaterial Emitter for Gas Sensing Application,” Nanomaterials, vol.10(8), pp.1442, 2020. (IF: 4.324, 唯一通讯作者)
X. Chen and Y.-S. Lin*, “Polarization-sensitive metamaterial with tunable multi-resonance in the terahertz frequency range,” Crystals, vol.10, pp.611, 2020. (IF: 2.404, 唯一通讯作者)
R. Xu and Y.-S. Lin*, “Reconfigurable Multiband Terahertz Metamaterial Using Triple-Cantilevers Resonator Array,” IEEE J. Microelectromech. Syst., vol.29(5), pp.1167-1172, 2020. (IF: 2.534, 唯一通讯作者)
X. Zhang, Y.-S. Lin*, and B.-R. Yang*, “Tunable Color Switch Using Split-Ring Metamaterial,” Opt. Laser Technol., vol.131, pp.106461, 2020. (IF: 3.233, 第一通讯作者)
T. Xu and Y.-S. Lin*, “Tunable Terahertz Metamaterial Using an Electric Split-Ring Resonator with Polarization-Sensitive Characteristic,” Appl. Sci., vol.10, pp.4660, 2020. (IF: 2.474, 唯一通讯作者)
R. Fang and Y.-S. Lin*, “Enhancement of perovskite photoluminescence characterizations by using lithography-free metal nanostructures,” AIP Adv., vol.10, pp.065328, 2020. (IF: 1.337, 唯一通讯作者)
F. Zhan and Y.-S. Lin*, “Tunable Multiresonance Using Complementary Circular Metamaterial,” Opt. Lett.,?vol.45(13), pp.3633-3636, 2020. (IF: 3.714, 唯一通讯作者, ESI热点论文)
J. Zhong and Y.-S. Lin*, “Electromechanically Rotatable Cross-Shaped Mid-IR Metamaterial,” Crystals, vol.10, pp.431, 2020. (IF: 2.404, 唯一通讯作者)
H. Ou, F. Lu, Z. Xu, and Y.-S. Lin*, “Terahertz Metamaterial with Multiple Resonances for Biosensing Application,” Nanomaterials, vol.10, pp.1038, 2020. (IF: 4.324, 唯一通讯作者)
W. Yang and Y.-S. Lin*, “Tunable metamaterial filter for optical communication in the terahertz frequency range,” Opt. Express, vol.28(12), pp.17620-17629, 2020. (IF: 3.669, 唯一通讯作者)
Y.-S. Lin*, J. Dai, Z. Zeng, and B.-R. Yang*, “Metasurface Color Filters Using Aluminum and Lithium Niobate Configurations,” Nanoscale Res. Lett., vol.15, pp.77, 2020. (IF: 3.581, 第一作者和第一通讯作者, 高被引论文)
J. Dai, R. Xu, Y.-S. Lin*, and C. H. Chen, “Tunable electromagnetic characteristics of suspended nanodisk metasurface,” Opt. Laser Technol., vol.128, pp.106214, 2020. (IF: 3.233, 唯一通讯作者)
W. Huang, R. Xu, Y.-S. Lin*, and C. H. Chen, “Three-Dimensional Pyramid Metamaterial with Tunable Broad Absorption Bandwidth,” AIP Adv., vol.10, pp.035125, 2020. (IF: 1.337, 唯一通讯作者)
Y. Wen, Z. Liang, Y.-S. Lin*, and C. H. Chen, “Active Modulation of Polarization-Sensitive Infrared Metamaterial,” Opt. Commun., vol.463, pp.125489, 2020. (IF: 1.961, 唯一通讯作者)
D. Zheng, X. Hu, Y.-S. Lin*, and C. H. Chen, “Tunable Multi-Resonance of Terahertz Metamaterial Using Split-Disk Resonators,” AIP Adv., vol.10, pp.025108, 2020. (IF: 1.337, 唯一通讯作者)
Y. Mo, J. Zhong, and Y.-S. Lin*, “Tunable Chevron-Shaped Infrared Metamaterial,” Mater. Lett., vol.263, pp.127291, 2020. (IF: 3.204, 唯一通讯作者)
X. Hu, D. Zheng, and Y.-S. Lin*, “Actively Tunable Terahertz Metamaterial with Single-Band and Dual-Band Switching Characteristic,” Appl. Phys. A-Mater. Sci. Process., vol.126, pp.110, 2020. (IF: 1.810, 唯一通讯作者, 高被引论文)
H. Ou, F. Lu, Y. Liao, F. Zhu, and Y.-S. Lin*, “Tunable Terahertz Metamaterial for High-Efficiency Switch Application,” Results Phys., vol.16, pp.102897, 2020. (IF: 4.019, 唯一通讯作者)
Z. Lin, Z. Xu, P. Liu, Z. Liang, and Y.-S. Lin*, “Polarization-Sensitive Terahertz Resonator Using Asymmetrical F-shaped Metamaterial,” Opt. Laser Technol., vol.121, pp.105826, 2020. (IF: 3.233, 唯一通讯作者, 高被引论文)
?
2019(16)：
Z. Zhang, X. Zhang, Z. Liang, S. Cheng, P. Liu, and Y.-S. Lin*, “Reconfigurable double C-shape metamaterial (DCM) for a terahertz resonator,” OSA Continuum, vol.2(11), pp.3026-3036, 2019. (唯一通讯作者)
F. Lu, H. Ou, Y. Liao, F. Zhu, and Y.-S. Lin*, “Actively Switchable Terahertz Metamaterial,” Results Phys., vol.15, pp.102756, 2019. (IF: 3.042, 唯一通讯作者)
Z. Liang, Y. Wen, Z. Zhang, Z. Liang, Z. Xu, and Y.-S. Lin*, “Plasmonic metamaterial using metal-insulator-metal nanogratings for high-sensitive refraction index sensor,” Results Phys., vol.15, pp.102602, 2019. (IF: 3.042, 唯一通讯作者)
X. Zhang and Y.-S. Lin*, “Actively electromagnetic modulation of IHI-shaped terahertz metamaterial with high-efficiency switching characteristic,” Results Phys., vol.15, pp.102532, 2019. (IF: 3.042, 唯一通讯作者)
Z. Xu, Z. Lin, S. Cheng, and Y.-S. Lin*, “Reconfigurable and Tunable Terahertz Wrench-Shape Metamaterial Performing Programmable Characteristic,” Opt. Lett., vol.44, pp.3944-3947, 2019. (IF: 3.866, 唯一通讯作者) (主编精选文章)
P. Liu, Z. Liang, Z. Lin, Z. Xu, R. Xu, D. Yao, and Y.-S. Lin*, “Actively tunable terahertz chain-link metamaterial with bidirectional polarization-dependent characteristic,” Sci. Rep., vol.9, pp.9917, 2019. (IF: 4.011, 唯一通讯作者)
Z. Xu and Y.-S. Lin*, “A stretchable terahertz parabolic-shaped metamaterial,” Adv. Opt. Mater., vol.7(19), pp.**, 2019. (IF: 7.125, 唯一通讯作者)
S. Cheng, Z. Xu, D. Yao, X. Zhang, Z. Zhang, and Y.-S. Lin*, “Electromagnetically induced transparency in terahertz complementary spiral-shape metamaterial,” OSA Continuum, vol.2(7), pp.2137-2144, 2019. (唯一通讯作者) (主编精选文章)
Z. Liang, Z. Lin, P. Liu, and Y.-S. Lin*, “Electromagnetic responses of symmetrical and asymmetrical infrared ellipse-shape metamaterial,” OSA Continuum, vol.2(7), pp.2153-2161, 2019. (唯一通讯作者)
Z. Chen, L. Wan, J. Song, J. Pan, Y. Zhu, Z. Yang, W. Liu, J. Li, S. Gao, Y.-S. Lin, B. Zhang, and Z. Li, “Optical, mechanical and thermal characterizations of suspended chalcogenide glass microdisk membrane,” Opt. Express, vol.27, pp.15918-15925, 2019. (IF: 3.561)
Y. Yu and Y.-S. Lin*, “Multi-functional terahertz metamaterial using symmetrical and asymmetrical electric split-ring resonator,” Results Phys., vol.13, pp.102321, 2019. (IF: 3.042, 唯一通讯作者)
R. Xu, X. Liu, and Y.-S. Lin*, “Tunable Ultra-Narrowband Terahertz Perfect Absorber by Using Metal-Insulator-Metal Microstructures,” Results Phys., vol.13, pp.102176, 2019. (IF: 3.042, 唯一通讯作者)
J. Luo and Y.-S. Lin*, “High-Efficiency of Infrared Absorption by Using Composited Metamaterial Nanotubes,” Appl. Phys. Lett., vol.114(5), pp.051601, 2019. (IF: 3.512, 唯一通讯作者)
W. Yu, S. Gao, Y.-S. Lin, M. He, L. Liu, J. Xu, Y. Luo, and X. Cai, “MEMS-Based Tunable Grating Coupler,” IEEE Photon. Technol. Lett., vol.31, pp.161-164, 2019. (IF: 2.553)
Y.-S. Lin*?, S. Liao?, X. Liu, Y. Tong, Z. Xu, R. Xu, D. Yao, and Y. Yu, “Tunable terahertz metamaterial by using three-dimensional double split-ring resonators,” Opt. Laser Technol., vol.112, pp.215-221, 2019. (IF: 3.319, 第一作者和唯一通讯作者)
Y.-S. Lin*, K. Yan, D. Yao, and Y. Yu, “Investigation of electromagnetic response of terahertz metamaterial by using split-disk resonator,” Opt. Laser Technol., vol.111, pp.509-514, 2019. (IF: 3.319, 第一作者和唯一通讯作者)
?
2018(6)：
Z. Xu, R. Xu, J. Sha, B. Zhang, Y. Tong, and Y.-S. Lin*, “Infrared metamaterial absorber by using chalcogenide glass material with cyclic ring-disk structure,” OSA Continuum, vol.1(2), pp.573-580, 2018. (唯一通讯作者)
R. Xu and Y.-S. Lin*, “Characterizations of reconfigurable infrared metamaterial absorbers,” Opt. Lett., vol.43(19), pp.4783-4786, 2018. (IF: 3.589, 唯一通讯作者)
D. Yao, K. Yan, X. Liu, S. Liao, Y. Yu, and Y.-S. Lin*, “Tunable terahertz metamaterial by using asymmetrical double split-ring resonators (ADSRRs),” OSA Continuum, vol.1(2), pp.349-357, 2018. (唯一通讯作者)
R. Xu, J. Luo, J. Sha, J. Zhong, Z. Xu, Y. Tong, and Y.-S. Lin*, “Stretchable IR metamaterial with ultra-narrowband perfect absorption,” Appl. Phys. Lett., vol.113, pp.101907, 2018. (IF: 3.495, 唯一通讯作者)
Y.-S. Lin* and W. Chen, “Perfect meta-absorber by using pod-like nanostructures with ultra-broadband, omnidirectional, and polarization-independent characteristics,” Sci. Rep., vol.8, pp.7150, 2018. (IF: 4.122, 第一作者和唯一通讯作者)
Y.-S. Lin* and W. Chen, “A large-area, wide-incident-angle, and polarization-independent plasmonic color filter for glucose sensing,” Opt. Mater., vol.75, pp.739-743, 2018. (IF: 2.238, 第一作者和唯一通讯作者)
2017(4)：
Y.-S. Lin*, “Complementary Infrared Metamaterials for Volatile Organic Solutions Sensing,” Mater. Lett., vol.195, pp.55-57, 2017. (IF: 2.572, 第一作者和唯一通讯作者)
H. Chen, B. Cao, H. Chen, Y.-S. Lin, and J. Zhang, “Combination of antibody-coated, physical-based microfluidic chip with wave-shaped arrays for isolating circulating tumor cells,” Biomed. Microdevices, vol.19, pp.66, 2017. (IF: 2.062)
H. Chen, B. Cao, B. Sun, Y. Cao, K. Yang, Y.-S. Lin, and H. Chen, “Highly-sensitive capture of circulating tumor cells using microellipse filters,” Sci. Rep., vol.7, pp.610, 2017. (IF: 4.259)
Y.-S. Lin*, W. Liu, and C. Hu, “Investigation of cells migration effects in microfluidic chips,” J. Chromatogr. Sep. Tech., vol.8, pp.**, 2017. (第一作者和唯一通讯作者)
2016(1)：
C. Hu^?, Y.-S. Lin^?*, H. Chen*, J. Liu, and F. Nie*, “Concentration gradient generator for H460 lung cancer cell sensitivity to the cytotoxic action of curcumin in microenvironmental pH conditions,” RSC Adv., vol.6, pp.107310-107316, 2016. (?: contributed equally; *: corresponding author, IF: 3.108, 共一作者和第一通讯作者)
2015(3)：
Y.-S. Lin, C.-Y. Huang, and C. Lee, “Reconfiguration of Resonance Characteristics for Terahertz U-Shape Metamaterial Using MEMS Mechanism,” IEEE J. Sel. Top. Quantum Electron., vol.21, no. 4, **, 2015. (IF: 3.466, 第一作者)
P. Pitchappa, C. P. Ho, Y. Qian, Y.-S. Lin, N. Singh and C. Lee, “MEMS switchable infrared metamaterial absorber,” Proc. SPIE Int. Soc. Opt. Eng., vol.9302, pp.93021I, 2015.
Y.-S. Lin, P. Pitchappa, C. P. Ho, and C. Lee, “MEMS tunable terahertz metamaterials using out-of-plane mechanisms,” Proc. SPIE Int. Soc. Opt. Eng., vol.9302, pp.93021J, 2015. (第一作者)
2014(6)：
M. Zhu, Y.-S. Lin, and C. Lee, “Coupling effect combined with incident polarization to modulate double split-ring-resonator in terahertz frequency range,” J. Appl. Phys., vol.116, no.17, pp.173106, 2014. (IF: 2.101)
Y.-S. Lin and C. Lee, “Tunable Fabry-Perot Filter Using Hybrid Integrated Grating and Slot Microstructures,” IEEE/ASME J. Microelectromech. Syst., vol.23, no.5, pp.1009-1011, 2014. (IF: 1.754, 第一作者)
Y.-S. Lin and C. Lee, “Tuning Characteristics of Mirrorlike T-Shape Terahertz Metamaterial Using Out-of-Plane Actuated Cantilevers,” Appl. Phys. Lett., vol.104, no.25, pp.251914, 2014. (IF: 3.302, 第一作者)
F. Ma, Y.-S. Lin, X. Zhang, and C. Lee, “Tunable multiband terahertz metamaterials using a reconfigurable electric split-ring resonator array,” Light-Sci. Appl. (nature publisher), vol.3, no.e171, pp.1-8, 2014. (IF: 14.603)
C. P. Ho, P. Pitchappa, Y.-S. Lin, C.-Y. Huang, P. Kropelnicki, and C. Lee, “Electrothermally actuated microelectromechanical systems based omega-ring terahertz metamaterial with polarization dependent characteristics,” Appl. Phys. Lett., vol.104, no.16, pp.161104, 2014. (IF: 3.302)
P. Pitchappa, C. P. Ho, Y.-S. Lin, P. Kropelnicki, C.-Y. Huang, N. Singh, and C. Lee, “Micro-electro-mechanically tunable metamaterial with enhanced electro-optic performance,” Appl. Phys. Lett., vol.104, no.15, pp.151104, 2014. (IF: 3.302)
2013(4)：
Y.-S. Lin, F. Ma, and C. Lee, “Three-Dimensional Movable Metamaterials Using Electric Split-Ring Resonators,” Opt. Lett., vol.38, no.16, pp.3126-3128, 2013. (IF: 3.179, 第一作者)
F. Ma, Y. Qian, Y.-S. Lin, H. Liu, X. Zhang, Z. Liu, J. M.-L. Tsai, and C. Lee, “Polarization-sensitive microelectromechanical systems based tunable terahertz metamaterials using three dimensional electric split-ring resonator arrays,” Appl. Phys. Lett., vol.102, no.16, pp.161912, 2013. (IF: 3.515)
Y.-S. Lin, Y. Qian, F. Ma, Z. Liu, P. Kropelnicki, and C. Lee, “Development of Stress-Induced Curved Actuators for A Tunable THz Filter Based on Double Split-Ring Resonators,” Appl. Phys. Lett., vol.102, no. 11, pp. 111908, 2013. (IF: 3.515, 第一作者)
Y.-S. Lin, C. P. Ho, K. H. Koh, and C. Lee, “Fabry-Perot Filter Using Grating Structures,” Opt. Lett., vol. 38, no. 6, pp. 902-904, 2013. (IF: 3.179, 第一作者)
2012(2)：
Y.-S. Lin, K. H. Lin, T. Tite, C. Y. Chuang, Y. M. Chang, and J. A. Yeh, “Investigation of Nanopatterned c-plane Sapphire Substrates for Growths of Polar and Nonpolar GaN epilayers,” J. Cryst. Growth, vol. 348, pp. 47-52, 2012. (IF: 1.552, 第一作者)
Y.-S. Lin, K. H. Lin, Y. M. Chang, and J. A. Yeh, “Epitaxy of m-plane GaN on nanoscale patterned c-plane sapphire substrates,” Surf. Sci., vol. 606, pp. L1-L4, 2012. (IF: 1.838, 第一作者)
2011(2)：
Y.-S. Lin and J. A. Yeh, “GaN-Based Light-Emitting Diodes Grown on Nanoscale Patterned Sapphire Substrates with Void-Embedded Cortex-Like Nanostructures,” Appl. Phys. Express, vol. 4, pp. 092103, 2011. (IF: 3.013, 第一作者)
Y.-S. Lin, W. C.?Hsu, K. C.?Huang, and J. A.?Yeh, “Wafer-level fabrication and optical characterization of nanoscale patterned sapphire substrates,” Appl. Surf. Sci., vol. 258, pp. 2-6, 2011. (IF: 2.103, 第一作者)
2004(4)：
C. K. Lee, and Y.-S. Lin, “A New Micromechanism for Transformation of Small Displacements to Large Rotations for a VOA,” IEEE Sens. J., vol. 4, pp. 503-509, 2004. (IF: 1.100)
C. K. Lee, Y.-S. Lin, Y. J. Lai, M. H. Tasi, C. C. Chen, and C. Y. Wu, “3-V Driven Pop-up Micromirror for Reflecting Light Toward Out-of-plane Direction for VOA Applications,” IEEE Photonics Technol. Lett., vol. 16, pp. 1044-1046, 2004. (IF: 2.552)
C. K. Lee, Y. J. Lai, Y.-S. Lin, C. Y. Wu, C. C. Chen, M. H. Tasi, S. Y. Hung, Y. M. Huang, R. S. Huang, and M. S. Lin, “Development of Surface Micromachined Mechanism for Movement Translation and Displacement Amplification,” Jpn. J. Appl. Phys., vol. 43, pp. 3887-3891, 2004. (IF: 1.142)
C. K. Lee, Y. J. Lai, C. Y. Wu, Y.-S. Lin, M. H. Tasi, R. S. Huang, and M. S. Lin, “Scratch Drive Actuator Driven Self-Assembled Variable Optical Attenuator,” Jpn. J. Appl. Phys., vol. 43, pp. 3906-3909, 2004. (IF: 1.142)
2003(1)：
Y. J. Lai, C. K. Lee, C. Y. Wu, W. C. Chen, C. C. Chen, Y.-S. Lin, W. L. Fang, and R. S. Huang, “Development of Electrothermal Actuator with Optimized Motion Characteristics,” Jpn. J. Appl. Phys., vol. 42, pp. 4067-4073, 2003. (IF: 1.171)?
国际研讨会议论文著作列表：64
H. Ou, F. Lu, Y. Liao, F. Zhu, and Y. S. Lin*, “Terahertz Metamaterial with Multiple Resonances for Biosensor Application,” 25th OptoElectronics and Communications Conference (OECC), Taipei, Taiwan, 04-08 Oct. 2020. (Best Student Paper Award)
F. Lu, H. Ou, Y. Liao, F. Zhu, and Y. S. Lin*, “Terahertz Metamaterial with Programmable switching Characteristic,” 25th OptoElectronics and Communications Conference (OECC), Taipei, Taiwan, 04-08 Oct. 2020.
X. Zhang, Y. Ding, J. Dai, and Y. S. Lin*, “Split-Ring Metamaterial for Tunable Color Filter,” 25th OptoElectronics and Communications Conference (OECC), Taipei, Taiwan, 04-08 Oct. 2020.
Y. Mo, Z. Xu, R. Xu, J. Luo, J. Zhong, R. Fang, and Y. S. Lin*, “Tunable Chevron-Beam Infrared Metamaterial,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.48-49, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
J. Zhong, R. Xu, J. Luo, T. Xu, Y. Zhang, Z. Xu, and Y. S. Lin* “Fano-resonance of reshaping infrared cross-shape metamaterial (CSM),” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.46-47, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
Z. Liang, Z. Lin, P. Liu, Z. Zhang, X. Zhang, Z. Xu, X. Xu, Z. Liang, Z. Song, C. Tang, J. Lin, Y. Wen, R. Xu, and Y. S. Lin* “Reconfigurable Infrared Ellipse-Shape Metamaterial,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.202-203, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
R. Xu, Z. Xu, J. Zhong, T. Xu, Y. Zhang, F. Zhan, and Y. S. Lin* “Multi-functional Infrared Metamaterial Absorber,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.114-115, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
F. Lu, H. Ou, F. Zhu, Y. Liao, Z. Li, L. Wu, X. Chen, and Y. S. Lin*, “Terahertz Metamaterial with Active Switching Characteristic,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.54-55, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
Z. Zeng, J. Dai, R. Fang, X. Zhang, W. Huang, Y. Ding, and Y. S. Lin*, “Ultrahigh Sensitive Meta-Absorber for Refraction Index Sensor,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.126-127, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
D. Zheng, X. Hu, L. Wu, X. Chen, F. Zhu, Y. Liao, and Y. S. Lin*, “Tunable Multi-Bandwidth Terahertz Metamaterial Using Split-Disk Resonator,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.56-57, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
J. Dai, Z. Zeng, R. Fang, W. Huang, X. Zhang, Y. Ding, and Y. S. Lin*, “Ultra-Broadband and Polarization-Insensitive Tunable Metasurface Absorber,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.122-123, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
S. Cheng, Z. Xu, R. Xu, X. Zhang, Z. Zhang, and Y. S. Lin*, “Active Modulation of Electromagnetically Induced Transparency in Terahertz Spiral Metamaterial,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.118-119, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
P. Liu, Z. Liang, Z. Lin, Z. Zhang, X. Zhang, Z. Xu, R. Xu, and Y. S. Lin*, “Tunable Multiband Terahertz Metamaterial with Bidirectional Polarization-Dependent Characteristic,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.42-43, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
H. Ou, F. Lu, X. Hu, Y. Liao, D. Zheng, F. Zhu, X. Chen, and Y. S. Lin*, “Tunable Terahertz Resonator Using Complementary Metamaterial for High-Efficiency Switch Application,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.50-51, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
X. Hu, D. Zheng, H. Ou, L. Wu, and Y. S. Lin*, “Tunable Terahertz Metamaterial with Single-/Dual-Band Switching Characteristic,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.116-117, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
Z. Lin, Z. Liang, P. Liu, X. Zhang, Z. Xu, Z. Zhang, Z. Li, T. Chen, Z. Luo, H. Luo, Y. Wen, and Y. S. Lin*, “Asymmetrically Polarization-Dependent Terahertz Metamaterial Resonator,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.148-149, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
Z. Xu, R. Xu, S. Chen, X. Xu, Z. Lin, P. Liu, and Y. S. Lin*, “Chalcogenide Glass for Infrared Meta-Absorber,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.52-53, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
Z. Xu, S. Cheng, R. Xu, D. Yao, P. Liu, Z. Lin, and Y. S. Lin*, “High-Efficiency Flexible Terahertz Metamaterial,” 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.120-121, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
R. Fang, Z. Zeng, J. Dai, X. Zhang, Y. Ding, Z. Fan, and Y. S. Lin*, ‘Enhancement of Photoluminescence Characteristic Using Metasurface-Based Perovskite,’ 2019 International Conference on Optical MEMS and Nanophotonics (IEEE OMN 2019), pp.58-59, Daejeon, Korea, 28 Jul.- 1 Aug., 2019.
Z. Lin, P. Liu, Z. Liang, X. Zhang, Z. Xu, Z. Zhang, and Y. S. Lin*, “High-Sensitive and Tunable Terahertz Metamaterial for Polarization Switch,” 24th OptoElectronics and Communications Conference/International Conference on Photonics in Switching and Computing 2019 (OECC/PSC 2019), Fukuoka, Japan, 07-11 Jul. 2019.
Z. Zhang, X. Zhang, Z. Liang, P. Liu, D. Yao, and Y. S. Lin*, “Tunable Double C-shape Metamaterial (DCM) for Terahertz Resonator,” 24th OptoElectronics and Communications Conference/International Conference on Photonics in Switching and Computing 2019 (OECC/PSC 2019), Fukuoka, Japan, 07-11 Jul. 2019.
Y. Mo and Y. S. Lin*, “Chevron-Beam Metamaterial with Active Tunability in Near-Infrared Wavelength Range,” 24th OptoElectronics and Communications Conference/International Conference on Photonics in Switching and Computing 2019 (OECC/PSC 2019), Fukuoka, Japan, 07-11 Jul. 2019.
D. Yao, K. Yan, X. Liu, S. Liao, Y. Yu, W. Chen, J. Sha, R. Xu, J. Luo, J. Zhong, S. Yang, Y. Tong, Z. Xu, and Y. S. Lin*, “Characterizations of Tunable Terahertz Metamaterial by Using Asymmetrical Double Split-Ring Resonators (ADSRRs),” 2018 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2018), pp. 52-53, école Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland, 29 Jul-02 Aug. 2018.
J. Sha, W. Chen, K. Yan, J. Luo, R. Xu, D. Yao, S. Liao, J. Zhong, S. Yang, Y. Yu, Y. Tong, Z. Xu, X. Liu, and Y. S. Lin*, “Tunable Metamaterial IR Emitter By Using MEMS Microheater,” 2018 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2018), pp. 88-89, école Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland, 29 Jul-02 Aug. 2018.
W. Chen, J. Sha, K. Yan, J. Luo, R. Xu, D. Yao, X. Liu, S. Liao, J. Zhong, S. Yang, Y. Yu, Y. Tong, Z. Xu, Y. S. Lin*, and T. S. Kao*, “Improvement of perovskite photoluminescence characteristics by using a lithography-free metasurface,” 2018 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2018), pp. 82-83, école Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland, 29 Jul-02 Aug. 2018.
R. Xu, J. Sha, W. Chen, K. Yan, J. Luo, Y. Yu, S. Liao, J. Zhong, S. Yang, D. Yao, X. Liu, Y. Tong, Z. Xu, and Y. S. Lin*, “A Large-Scale, Omnidirectional, and Polarization-Independent Metamaterial-Based Chemical Sensor,” 2018 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2018), pp. 48-49, école Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland, 29 Jul-02 Aug. 2018.
J. Luo, R. Xu, W. Chen, J. Sha, K. Yan, D. Yao, X. Liu, S. Liao, J. Zhong, S. Yang, Y. Yu, Y. Tong, Z. Xu, and Y. S. Lin*, “An ultra-sensitive glucose sensor by using metamaterial-based microfluidic chip,” 2018 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2018), pp.44-45, école Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland, 29 Jul-02 Aug. 2018.
Y. S. Lin*, R. Xu, K. Yan, J. Sha, W. Chen, J. Luo, X. Liu, S. Yang, D. Yao, J. Zhong, S. Liao, Y. Yu, Z. Xu, and Y. Tong, “Metamaterial-based label-free chemical sensors for the detection of volatile organic solutions,” The 18th IEEE International Conference on Nanotechnology (IEEE NANO 2018), Tyndall National Institute, Cork, Ireland, 23-26 Jul. 2018.
Y. S. Lin*, R. Xu, Y. Tong, J. Luo, K. Yan, W. Chen, Z. Xu, X. Liu, S. Yang, D. Yao, J. Sha, J. Zhong, S. Liao, and Y. Yu, “A large-scale lithography-free plasmonic color filter for effectively glucose sensing,” The 18th IEEE International Conference on Nanotechnology (IEEE NANO 2018), Tyndall National Institute, Cork, Ireland, 23-26 Jul. 2018.
Y. S. Lin* and C. Hu, “Effectively Anticancer Drug Concentration Gradients by Using 3D Microfluidic Chip,” 2017 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2017), pp.81-82, Courtyard Marriott Santa Fe, New Mexico, USA, 13-17 Aug. 2017.
Y. S. Lin* and J. Liu, “CD-Like Centrifugal Microfluidic Device for Organophosphorus Pesticides (OPP) Sensing,” 2017 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2017), pp.83-84, Courtyard Marriott Santa Fe, New Mexico, USA, 13-17 Aug. 2017.
Y. S. Lin*, “Near-UV-Enhanced Sensitivity of Plasmonic Nanotextured Device for Volatile Organic Sensing,” The 12th Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR); The 22nd OptoElectronics and Communications Conference (OECC); The 5th Photonics Global Conference 2017 (PGC), Marina Bay Sands, Singapore, 31 Jul.-4 Aug. 2017.
P. Pitchappa, C. P. Ho, Y. Qian, Y. S. Lin, N. Singh and C. Lee, “Enhanced controllability in MEMS metamaterial,” The 28th IEEE Intern. Conference on Micro Electro Mechanical Systems (IEEE MEMS 2015), Estoril, Portugal, pp. 1032-1035, 18-22 Jan. 2015.
Y. S. Lin, P. Pitchappa, C. P. Ho, and C. Lee, “MEMS tunable terahertz metamaterials using out-of-plane mechanisms,” The intern. Conf. on Experimental Mechanics in conjunction with the 13th Asian Conf. on Experimental Mechanics 2014 (icEM2014-ACEM13), Holiday Inn Atrium, Singapore, 15-17 Nov. 2014.
P. Pitchappa, C. P. Ho, Y. Qian, Y. S. Lin, N. Singh, and C. Lee, “MEMS switchable infrared metamaterial absorber,” The intern. Conf. on Experimental Mechanics in conjunctionwith the 13th Asian Conf. on Experimental Mechanics 2014 (icEM2014-ACEM13), Holiday Inn Atrium, Singapore, 15-17 Nov. 2014.
Y. S. Lin and C. Lee, “MEMS-Based High-Q Fabry-Perot Filters,” 2014 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2014), pp.115-116, Glasgow, Scotland, 17-21 Aug. 2014.
P. Pitchappa, C. P. Ho, Y. S. Lin, and C. Lee, “Enhanced Electro-optic Switching Characteristics Using MEMS Based Terhertz Metamaterial,” 2014 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2014), pp.37-38, Glasgow, Scotland, 17-21 Aug. 2014.
C. P. Ho, P. Pitchappa, Y. S. Lin, and C. Lee, “Electrothermally Actuated MEMS Terhertz Metamaterial,” 2014 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2014), pp.111-112, Glasgow, Scotland, 17-21 Aug. 2014.
Y. S. Lin, M. Zhu, and C. Lee, “Novel Terahertz Chemical Sensor Using Symmetric T-Shape Metamaterial,” The 6th International Symposium on Microchemistry and Microsystems 2014 (ISMM 2014), Singapore, Jul. 30-Aug. 1, 2014.
Y. S. Lin and C. Lee, “A Tunable 3-D Metamaterials Terahertz Filter,” The 7th Asia-Pacific Conference on Transducers and Micro/Nano Technologies (APCOT 2014), Daegu, Korea, 29 Jun.-2 Jul. 2014.
Y. S. Lin and C. Lee, “An Electrically Tunable THz Filter Using Three-Dimensional Metamaterials,” Optics & Photonics Taiwan, International Conference 2013 (OPTIC 2013), pp. S0104-O001, National Central University, Taiwan, 5-7 Dec. 2013.
Y. S. Lin, F. Ma, and C. Lee, “A 3-D Movable Metamaterials Filter Using Surface Micromachining Process,” 2013 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2013), pp. 169-170, Kanazawa Bunka Hall, Japan, 18-22 Aug. 2013.
Y. S. Lin, C. P. Ho, P. Pitchappa, F. Ma, Y. Qian, P. Kropelnicki, and C. Lee, “Tunable THz Filter Using 3-D Split-Ring Resonators,” 2013 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2013), pp.167-168, Kanazawa Bunka Hall, Japan, 18-22 Aug. 2013.
F. Ma, Y. S. Lin, Y. Qian, C. P. Ho, P. Pitchappa, and C. Lee, “Development of Tunable 3-D eSRR for THz Applications,” 2013 IEEE International Conf. on Optical MEMS and Nanophotonics (IEEE OMN 2013), pp. 141-142, Kanazawa Bunka Hall, Japan, 18-22 Aug. 2013.
Y. S. Lin, F. Ma, Y. Qian, P. Kropelnicki, Z. Liu, and C. Lee, “A Three-Dimensional THz Metamaterials Using Double Split-Ring Resonators,” the 10^th Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR) & the 18^th OptoElectronics and Communications Conference/Photonics in Switching (OECC/PS), WC4-5, Kyoto, Japan, 30 Jun.-4 Jul. 2013.
Y. S. Lin, F. Ma, and C. Lee, “A MEMS-Based 3-D Movable Metamaterials,” the 10^th Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR) & the 18^th OptoElectronics and Communications Conference/Photonics in Switching (OECC/PS), ThL1-2, Kyoto, Japan, 30 Jun.-4 Jul. 2013.
F. Ma, Y. Qian, Y. S. Lin, H. Liu, X. Zhang, and C. Lee. “Development of MEMS Electric Split-ring Resonator Arrays as Tunable THz Filters,” the 10^th Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR) & the 18^thOptoElectronics and Communications Conference/Photonics in Switching (OECC/PS), WC4-6, Kyoto, Japan, 30 Jun.-4 Jul. 2013.
Y. S. Lin and J. A. Yeh, “Nanoscale Patterned Sapphire Substrates with Cortex-Like Nanostructures for GaN-Based LEDs,” 2011 IEEE International Conf. Optical MEMS and Nanophotonics (IEEE OMN 2011), pp.63-64, Istanbul, Turkey, 8-11 Aug. 2011.
Y. S. Lin and J. A. Yeh, “Wafer-Level Fabrication of Nanoscale Patterned Sapphire Substrates with Broadband Optical Transmittance,” the 16th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducer’ 11), pp.641-644, Beijing, China, 5-9 Jun. 2011.
K. H. Lin, C. Y. Chuang, Y. M. Chang, J. Y. Chyan, Y. S. Lin, and J. A. Yeh, “Blue-Green Emission from Aged Porous Silicon,” 2011 annual meeting of the physical society of ROC, Taipei, Taiwan, 25-27 Jan. 2011.
Y. S. Lin and J. A. Yeh, “Improvement of GaN Crystalline Quality on Nanoscale Patterned Sapphire Substrates,” 2010 IEEE International Conf. Optical MEMS and Nanophotonics (IEEE OMN 2010), pp. 153-154, Sapporo, Japan, 9-12 Aug. 2010.
Y. S. Lin and J. A. Yeh, "GaN-Based LEDs of High Brightness Grown on Wafer-Level Nanoscale Patterned Sapphire Substrates," Nano and Micro Systems (NAMIS) Workshop, 17-19 Dec. 2010.
Y. S. Lin, E. H. Chang, W. C. Hsu, K. C. Huang, and J. A. Yeh, “The Optical Characterization of Nanoscale Patterned Sapphire Substrates,” the 14^th Nano & Microsystem Technology, Kaohsiung , Taiwan, 2-3 Sep. 2010.
C. K. Lee, Y. J. Lai, Y. S. Lin, R. S. Huang, and M. S. Lin, “Development of Novel Micromechanism for Movement Translation and Out-of-plane Displacement Amplification,” 5th Pacific Rim Conference on Lasers and Electro-Optics co-sponsored by Optical Society of America, IEEE/LEOS, pp.601, Taipei, Taiwan, 15-19 Dec. 2003.
Y. J. Lai, C. Y. Wu, C. K. Lee, Y. S. Lin, W. C. Chen, C. C. Chen, R. S. Huang, and M. S. Lin, “Design and characterization of electrothermal actuator from reliability and robust aspects,” 5th Pacific Rim Conference on Lasers and Electro-Optics co-sponsored by Optical Society of America, IEEE/LEOS, pp.100, Taipei, Taiwan, 15-19 Dec. 2003.
C. K. Lee and Y. S. Lin, “Novel Micromechanism of Transferring In-plane Displacement into Out-of-plane Motion for Optical MEMS,” 7th International Conf. on Mechatronics Technology (ICMT 2003), Taipei, Taiwan, 2-6 Dec. 2003.
C. K. Lee, Y. J. Lai, C. Y. Wu, Y. S. Lin, M. H. Tasi, and R. S. Huang, “Self-assembled Continuously Movable MEMS Shutter and Corrugated Curved Beam Electrostatic Actuator for Variable Optical Attenuator Application,” 7th International Conference on Mechatronics Technology (ICMT 2003), Taipei, Taiwan, 2-6 Dec. 2003.
Y. J. Lai, C. K. Lee, C. Y. Wu, Y. S. Lin, M. H. Tasi, R. S. Huang, and M. S. Lin, “Fabrication of Corrugated Curved Beam Type Electrostatic Actuator and SDA Driven Self-assembled Mechanism for VOA Applications,” Digest of Microprocesses& Nanotechnology 2003. 2003 International Microprocesses and Nanotechnology Conference, pp.286-287, Tokyo, Japan, 28-31 Oct. 2003.
C. K. Lee, Y. S. Lin, Y. J. Lai, M. H. Tsai, C. C. Chen, C. Y. Wu, and R. S. Huang, “New Out-of-plane Light Attenuation Scheme Based on Surface Micromachined Pop-up Mirror and Movement Translation Micromechanism,” Digest of Papers Microprocesses and Nanotechnology 2003. 2003 International Microprocesses and Nanotechnology Conference, pp.174-175, Tokyo, Japan, 28-31 Oct. 2003.
Y. J. Lai, C. K. Lee, C. Y. Wu, Y. S. Lin, and M. H. Tsai, “Self-assembled Axial Type Variable Optical Attenuator Using Continuously Movable Pop-up MEMS Mirror,” 9th Microoptics Conf., Tokyo, Japan, 29-31 Oct. 2003.
Y. J. Lai, C. K. Lee, C. Y. Wu, M. H. Tasi, and Y. S. Lin, “Self-assembled out-of-plane movable vane for variable optical attenuator application,” IEEE Conf. On Lasers and Electro Optics 2003, CLEO 2003, Baltimore, USA, 3-5 Jun. 2003.
Y. J. Lai, C. Y. Wu, C. Lee, Y. S. Lin, W. C. Chen, C. C. Chen, R. S. Huang, and M. S. Lin, “Design and Characterization of Electrothermal Actuator from Reliability and Robust Aspects,” IEEE Conference on Lasers and Electro-Optics Pacific Rim 2003 (CLEO-PR 2003), pp.100, Taipei, Taiwan, 15-19 Dec. 2003.
Y. J. Lai, C. Y. Wu, C. Lee, Y. S. Lin, W. C. Chen, C. C. Chen, M. H. Tsai, R. S. Huang, and M. S. Lin, “Out-of-Plane MEMS Shutter with Continuous Motion Capability for VOA Application,” IEEE Conference on Lasers and Electro-Optics Pacific Rim 2003 (CLEO-PR 2003), pp. 141, Taipei, Taiwan, 15-19 Dec. 2003.
C. Lee, Y. J. Lai, Y. S. Lin, R. S. Huang, and M. S. Lin, “Development of Novel Micromechanism for Movement Translation and Out-of-Plane Displacement Amplification,” EEE Conference on Lasers and Electro-Optics Pacific Rim 2003 (CLEO-PR 2003), pp.601, Taipei, Taiwan, 15-19 Dec. 2003.
国际新闻杂志: 3
Semiconductor Today, Sep./Oct., 2011. (http://www.semiconductor-today.com/news_items/2011/SEPT/NTHU_070911.html)
“EQE increased 2.4-fold with void-embedded cortex nano-patterned LED”, Semiconductor Today, Vol.6, Issue 7, page 118-119, September/October, 2011. (http://www.semiconductor-today.com)
“Patterned sapphire for nitride enhancements”, Semiconductor Today, Vol.6, Issue 7, page 120-124, September/October, 2011. (http://www.semiconductor-today.com)
培养本科生科研获奖成果：
1.?区慧良参加第25届光电子与通信会议(25th OptoElectronics and Communications Conference, OECC)荣获最佳学生论文奖, 论文题目：Terahertz Metamaterial with Multiple Resonances for Biosensor Application。
2. 中山大学2020年大学生创新训练计划项目：可调控新颖表面材料在生物传感器件的应用(张心颐、丁盈丰)，校级。
3. 中山大学2019年大学生创新训练计划项目：
主动调控式红外—太赫兹超材料的光场行为研究(郑导野、胡星卓、黄炜恺、许晓灿、陈晓洁)，荣获优秀。郑导野代表中山大学参加教育部第十三届全国大学生创新创业年会。
纳米机电式可主动调控红外超材料滤波器件(莫燕南、方荣朋、林杰)，荣获优秀。
基于MEMS的二维与三维太赫兹超材料光学特性研究(廖宇航、陆方圆、朱凤迪、区慧良)，荣获优秀。
可见光波段的主动调控高效超材料吸收器件(曾焯煜、戴杰、唐超、宋政、詹丰玮)，荣获良好。
4. 中山大学2018年大学生创新训练计划项目：可调控太赫兹超材料滤波器件的光学特性研究(许泽锋、刘鹏宇、林智成)，荣获优秀。许泽锋代表中山大学参加教育部第十二届全国大学生创新创业年会。
5. 中山大学2018年实验室开放基金项目: 高效率可主动调控太赫兹超材料器件(张啸、张智、梁梓浩)，荣获优秀。
6. 第十九届广东省大学生物理实验设计大赛：一种四维海浪发电模型的分析与设计(李恩来、姜震、李涵茜、陈瑶、李锡铭)，荣获二等奖。
7. 2018年“创客中国”创新创业大赛：智能化多功能光电集成式传感芯片(许锐佳、许泽锋、姚栋元)，荣获优胜奖。
8. 许泽锋荣获中山大学2020届校级优秀本科毕业论文，论文题目：基于超材料的全光逻辑器件。
9. 许锐佳荣获中山大学2019届校级优秀本科毕业论文，论文题目：微机电式可调控红外吸收器件研究。
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