公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2006 | E-beam photoresist and carbon nanotubes as biomimetic dry adhesives | Tsai, Y. C.; Shih, W. P.; Wang, Y. M.; Huang, L. S.; PO-JEN SHIH | Proceedings of the IEEE International Conference on Micro Electro Mechanical Systems (MEMS) | 7 | | |
2022 | Effect of Static and Dynamic Stretching on Corneal Fibroblast Cell | Dai Z.-X.; PO-JEN SHIH ; Yen J.-Y.; I-JONG WANG | Processes | 3 | 2 | |
2021 | Effects of electromagnets on bovine corneal endothelial cells treated with dendrimer functionalized magnetic nanoparticles | Hatamie S.; PO-JEN SHIH ; Chen B.-W.; Shih H.-J.; I-JONG WANG ; TAI-HORNG YOUNG ; Yao D.-J. | Polymers | 1 | 1 | |
2017 | Estimation of the Corneal Young's Modulus in Vivo Based on a Fluid-Filled Spherical-Shell Model with Scheimpflug Imaging | Shih, P.-J.; Huang, C.-J.; Huang, T.-H.; Lin, H.-C.; Yen, J.-Y.; I-JONG WANG ; Cao, H.-J.; Shih, W.-P.; JIA-YUSH YEN ; CHI-AN DAI ; PO-JEN SHIH | Journal of Ophthalmology | 24 | 18 | |
2024 | Experimental evaluation of corneal stress-optic coefficients using a pair of force test | Shih, Hua Ju; Cheng, Shan Chien; PO-JEN SHIH | Journal of the Mechanical Behavior of Biomedical Materials | | | |
2024 | The extraction and application of antisymmetric characteristics of the cornea during air-puff perturbations | PO-JEN SHIH ; Shih, Hua Ju; I-JONG WANG ; SHU-WEN CHANG | Computers in Biology and Medicine | 0 | | |
2022 | Eye orbit effects on eyeball resonant frequencies and acoustic tonometer measurements | PO-JEN SHIH ; Wu S.-J; Sung Y.-H; Tung Y.-T; Chang C.-Y; Hatamie S; Dai Z.-X. | Scientific Reports | 1 | 1 | |
2012 | Fabrication and application of iron(III)-oxide nanoparticle/ polydimethylsiloxane composite cone in microfluidic channels | Huang, C.-C.; Wu, M.-D.; Liang, D.; JIASHING YU ; PO-JEN SHIH ; WEN-PIN SHIH | Journal of Nanomaterials | 5 | 2 | |
2010 | Fabrication and characterization of CMOS-MEMS thermoelectric micro generators | Kao, P.-H.; Shih, P.-J.; Dai, C.-L.; Liu, M.-C.; PO-JEN SHIH | Sensors | | | |
2019 | Fabrication and characterization of flexible thermoelectric generators using micromachining and electroplating techniques | Lee, W.-L.; Shih, P.-J.; Hsu, C.-C.; Dai, C.-L.; PO-JEN SHIH | Micromachines | | | |
2019 | Facile fabrication of superporous and biocompatible hydrogel scaffolds for artificial corneal periphery | Lee, Y.-P.; Liu, H.-Y.; Lin, P.-C.; Lee, Y.-H.; Yu, L.-R.; Hsieh, C.-C.; Shih, P.-J.; Shih, W.-P.; I-JONG WANG ; Yen, J.-Y.; JIA-YUSH YEN ; CHI-AN DAI ; CHIH-CHEN HSIEH ; PO-JEN SHIH | Colloids and Surfaces B: Biointerfaces | 25 | 18 | |
2012 | Fourier expansion to elastic vector wave functions and applications of wave bases to scattering in half-space | Shih, P-J; Teng, T-J; PO-JEN SHIH | Journal of Mechanics | 1 | 1 | |
2014 | Frequency function in atomic force microscopy applied to a liquid environment | Shih, P.-J.; PO-JEN SHIH | Sensors (Switzerland) | | | |
2013 | Frequency response of carbon nanotube probes during tapping mode of atomic force microscopy | Shih, P.-J.; Cai, S.-H.; PO-JEN SHIH | Applied Mechanics and Materials | | | |
2021 | Functional assistance for stress distribution in cell culture membrane under periodically stretching | Dai Z.-X.; PO-JEN SHIH ; Yen J.-Y.; I-JONG WANG | Journal of Biomechanics | 4 | 4 | |
2020 | Hyperthermia response of PEGylated magnetic graphene nanocomposites for heating applications and accelerate antibacterial activity using magnetic fluid hyperthermia | Hatamie, S.; Shih, P.-J.; Soufi Zomorod, M.; Heravi, P.; Ahadian, M.M.; Hatami, N.; PO-JEN SHIH | Applied Physics A: Materials Science and Processing | | | |
2024 | Identification and analysis of Nonlinear behaviors of vocal fold biomechanics during phonation to assess efficacy of surgery for benign laryngeal Diseases | Wen-Hsuan Tseng ; Chiu, Hsiang Ling; Hsiao, Tzu-Yu; TSUNG-LIN YANG ; PO-JEN SHIH | Computers in Biology and Medicine | 0 | | |
2007 | Impact dynamics of vibratory microprobe for microcoordinate measurement | PO-JEN SHIH ; WEN-PIN SHIH | Journal of Applied Physics | 7 | 3 | |
2020 | Low-concentration ammonia gas sensors manufactured using the CMOS-MEMS technique | Shen, W.-C.; Shih, P.-J.; Tsai, Y.-C.; Hsu, C.-C.; Dai, C.-L.; PO-JEN SHIH | Micromachines | 29 | 27 | |
2020 | Magnetic micro sensors with two magnetic field effect transistors fabricated using the commercial complementary metal oxide semiconductor process | Chen, W.-R.; Tsai, Y.-C.; Shih, P.-J.; Hsu, C.-C.; Dai, C.-L.; PO-JEN SHIH | Sensors (Switzerland) | 6 | 5 | |