2.Lester Uy Vinzons and Shu-Ping Lin*, “Hierarchical Micro-/Nanotopographies Patterned by Tandem Nanosphere Lens Lithography and UV–LED Photolithography for Modulating PC12 Neuronal Differentiation”, ACS Applied Nano Materials, 5, no. 5, pp. 6935-6953, Apr. 2022. (https://doi.org/10.1021/acsanm.2c00938) (SCI, IF: 6.140, 2021) (MATERIALS SCIENCE, MULTIDISCIPLINARY, Rank: 101/345)
3.Yuan-Po Yang, Yun-Lin Lu, Akhilesh Kumar Gupta, and Shu-Ping Lin*, “Real-Time Impedimetric Detection of Cardiac Troponin I Using ITO-Coated Vertically Aligned Silicon Nanowires”, Materials Letters, 311, 2022, 131575. (https://doi.org/10.1016/j.matlet.2021.131575) (SCI, IF: 3.574, 2021) (PHYSICS, APPLIED, Rank: 57/161)
4.Akhilesh Kumar Gupta, Ravi Ranjan Kumar, Advaita Ghosh, and Shu-Ping Lin*, “Perspective of Smart Self-Powered Neuromorphic Sensor and Their Challenges towards Artificial Intelligence for Next-Generation Technology”, Materials Letters, 310, 2022, 131541. (https://doi.org/10.1016/j.matlet.2021.131541) (SCI, IF: 3.574, 2021) (PHYSICS, APPLIED, Rank: 57/161)
5.Lester U. Vinzons, Akhilesh Kumar Gupta, Tung-Yen Lai, and Shu-Ping Lin*, “Interpretation of Biosensing Technology in Cell-Coupled Silicon Nanowire Transistors via Impedance Spectra”, Materials Letters, 308, Part A, 2022, 131087. (https://doi.org/10.1016/j.matlet.2021.131087) (SCI, IF: 3.574, 2021) (PHYSICS, APPLIED, Rank: 57/161)
6.Shao-Yung Lu, Siang-Sin Shan, Cheng-Ze Shao, Ting-Heng Lu, Yung-Hua Yeh, I-Te Lin, Shu-Ping Lin and Yu-Te Liao*, “Wireless Multimodality Sensing -on-a-Chip With Time-based Resolution Scaling Technique and Analog Waveform Generator in 0.18μm CMOS for Chronic Wound Care”, IEEE s on Biomedical Circuits and s, 15, no. 6, pp. 1268-1282, Dec. 2021. (doi: 10.1109/TBCAS.2021.3126810) (SCI, IF: 5.234, 2021) (ENGINEERING, BIOMEDICAL, Rank: 28/98) (ENGINEERING, ELECTRICAL & ELECTRONIC, Rank: 59/276)
7.Lester U. Vinzons and Shu-Ping Lin*, “Facile fabrication of ordered discontinuous nanotopography on photosensitive substrates for enhanced neuronal differentiation”, Nanotechnology, 32, 2021, 365301. (https://doi.org/10.1088/1361-6528/ac0381) (SCI, IF: 3.953, 2021) (MATERIALS SCIENCE, MULTIDISCIPLINARY, Rank: 161/345) (NANOSCIENCE & NANOTECHNOLOGY, Rank: 64/109)
8.Qianfan Nie1, Caifang Gao1, Feng-Shou Yang, Ko-Chun Lee, Che-Yi Lin, Xiang Wang, Ching-Hwa Ho, Chen-Hsin Lien, Shu-Ping Lin, Mengjiao Li*, Yen-Fu Lin*, Wenwu Li*, Zhigao Hu, and Junhao Chu, “Carrier-capture-assisted optoelectronics based on van der Waals materials to imitate medicine-acting metaplasticity”, npj 2D Materials and Applications, 2021, 5, 60. (https://doi.org/10.1038/s41699-021-00241-0) (SCI, IF: 10.516, 2021) (NANOSCIENCE & NANOTECHNOLOGY, Rank: 22/109) (MATERIALS SCIENCE, MULTIDISCIPLINARY, Rank: 47/345)
9.Ko-Chun Lee, Shun-Yong Huang, Meng-Yu Tsai, Shih-Hsien Yang, Che-Yi Lin, Mengjiao Li, Yuan-Ming Chang, Kenji Watanabe, Takashi Taniguchi, Ying-Chih Lai*, Shu-Ping Lin*, Po-Wen Chiu*, and Yen-Fu Lin*, “Artificial mechanoreceptor based on van der Waals stacking structure”, Matter, 2021, 4, P1598-1610. (https://doi.org/10.1016/j.matt.2021.02.010) (SCI, IF: 19.967, 2021) (MATERIALS SCIENCE, MULTIDISCIPLINARY, Rank: 16/345)
10.Caifang Gao, Mu-Pai Lee, Mengjiao Li, Ko-Chun Lee, Feng-Shou Yang, Che-Yi Lin, Kenji Watanabe, Takashi Taniguchi, Po-Wen Chiu, Chen-Hsin Lien, Wen-Wei Wu, Shu-Ping Lin*, Wenwu Li*, Yen-Fu Lin* and Junhao Chu, “Mimic Drug Dosage Modulation for Neuroplasticity based on Charge-trap Layered Electronics”, Advanced Functional Materials, 2021, 31, 2005182. (https://doi.org/10.1002/adfm.202005182) (SCI, IF: 19.924, 2021) (CHEMISTRY, MULTIDISCIPLINARY, Rank: 10/179) (PHYSICS, APPLIED, Rank: 8/161)
11.Mengjiao Li*, Feng-Shou Yang, Hung-Chang Hsu, Wan-Hsin Chen, Chia Nung Kuo, Jiann-Yeu Chen, Shao-Heng Yang, Ting-Hsun Yang, Che-Yi Lin, Yi Chou, Mu-Pai Lee, Yuan-Ming Chang, Yung-Cheng Yang, Ko-Chun Lee, Yi-Chia Chou, Chen-Hsin Lien, Chun-Liang Lin, Ya-Ping Chiu, Chin Shan Lue*, Shu-Ping Lin*, and Yen-Fu Lin*, “Defect Engineering in Ambipolar Layered Materials for Mode-Regulable Nociceptor”, Advanced Functional Materials, 2021, 31, 2007587. (https://doi.org/10.1002/adfm.202007587) (SCI, IF: 19.924, 2021) (CHEMISTRY, MULTIDISCIPLINARY, Rank: 10/179) (PHYSICS, APPLIED, Rank: 8/161)
12.Ko-Chun Lee1, Mengjiao Li1,*, Yu-Hsiang Chang, Shih-Hsien Yang, Che-Yi Lin, Yuan-Ming Chang, Feng-Shou Yang, Kenji Watanabe, Takashi Taniguchi, Ching-Hwa Ho, Chen-Hsin Lien, Shu-Ping Lin, Po-Wen Chiu*, Yen-Fu Lin*, “Inverse Paired-pulse Facilitation in Neuroplasticity based on Interface-boosted Charge Trapping Layered Electronics”, Nano Energy, 77, 2020, 105258. (https://doi.org/10.1016/j.nanoen.2020.105258) (SCI, IF: 19.069, 2021) (MATERIALS SCIENCE, MULTIDISCIPLINARY, Rank: 18/345) (NANOSCIENCE & NANOTECHNOLOGY, Rank: 9/109) (PHYSICS, APPLIED, Rank: 10/161)
13.Siang-Sin Shan, Shao-Yung Lu, Yuan-Po Yang, Shu-Ping Lin, Patrick Carey, Minghan Xian, Fan Ren, Stephen Pearton, Chin-Wei Chang, Jenshan Lin, Yu-Te Liao*, “A Two-electrode, Double-pulsed Sensor Readout Circuit for Cardiac Troponin I Measurement”, IEEE s on Biomedical Circuits and s, vol. 14, no. 6, pp. 1362-1370, Dec. 2020, (doi: 10.1109/TBCAS.2020.3029912) (SCI, IF: 5.234, 2021) (ENGINEERING, BIOMEDICAL, Rank: 28/98) (ENGINEERING, ELECTRICAL & ELECTRONIC, Rank: 59/276)
14. Lester U. Vinzons and Shu-Ping Lin*. Semiconductor Biosensors Based on Nanowire Field-Effect Transistors. In: Han-Sheng Chuang and Yi-Ping Ho, editors. in Advances in Biosensing Technology for Medical Diagnosis. Chapter 4. pp. 99–168, Bentham Science (2020). (DOI: 10.2174/9789811464805120010006) (https://www.eureka.com/186863/chapter/semiconductor-biosensors-based-on-nanowire-field-effect-transistor)