期刊論文(林哲信老師)
Highly cited papers: (“Highly cited papers in 10 years, top 1%” selected by ISI, Essential Science Indicators)
1. C. H. Lin, G. B. Lee, Y. H. Lin, G. L. Chang, “A Fast Prototyping Process for Fabrication of Microfluidic Systems on Soda-Lime Glass” Journal of Micromechanic and Microengineering, Vol. 11, No. 6, pp. 726-732, 2001
2. C. H. Lin, G. B. Lee, B. W. Chang, G. L. Chang, “A new fabrication process for ultra-thick microfluidic microstructures utilizing SU-8 photoresist”, Journal of Micromechanic and Microengineering, Vol. 12, No 5, pp. 590-597, 2002.
3. C. H. Lin, L. M. Fu and C. H. Tsai, “A Rapid 3-Dimensional Vortex Micromixer Utilizing Self-Rotation Effect under Low Reynolds Number Conditions” Journal of Micromechanics and Microengineering, 15, pp. 935–943, 2005.
International Journals:
1. C. H. Lin*, Z. C. Lei, W. H. Hsieh, Y. C. Tsai, C. N. Liu, W. H. Cheng, “Micro-hyperboloid lensed fibers for efficient coupling from laser chips” Optics Express Vol. 25, p.p. 24480, 2017.
2. S. Y. Chen, J. C. Huang, C. T. Pan, C. H. Lin, T. L. Yang, Y. S. Huang, C. H. Oh, L. Y. Chen, D. Y. Lin, H. K. Lin, T. H. Lin, J. S. C. Jang, C. C. Yang, “Microstructure and mechanical properties of open-cell porous Ti-6Al-4V fabricated by selective laser melting” Journal of Alloys and Compounds, Vol. 713, pp. 248-254, 2017.
3. C. H. Lin, C. H. Chen, Y. S. Huang, C. H. Huang, J. C. Huang, J.S.C. Jang, Y.S. Lin, “In-vivo investigations and cytotoxicity tests on Ti/Zr-based metallic glasses with various Cu contents” Materials Science and Engineering C, 77, pp. 308–317, 2017.
4. C. T. Pan, C. H. Lin, Y. S. Huang, T. L. Yang, S. Y. Chen, C. H. Oh, L. Y. Chen, J. C. Huang, J. S. C. Jang, H. K. Lin, D. Y. Lin, “Design of Interbody Fusion Cages of Ti6Al4V with Gradient Porosity Using a Selective Laser Melting Process for Spinal Fusion Arthroplasty” Journal of Laser Micro Nanoengineering, Vol. 12, pp. 34-44, 2017.
5. L. Y. Chen, J. C. Huang, C. H. Lin, C. T. Pan, S.Y. Chen, T.L. Yang, D.Y. Lin, H.K. Lin, J.S.C. Jang “Anisotropic response of Ti-6Al-4V alloy fabricated by 3D printing selective laser melting” Materials Science & Engineering A, Vol. 682, pp. 389-395, 2017.
6. Y. C. Wu, S. J. Wu, C. H. Lin*, “Mass-produced polyethylene-terephthalate film coated with tantalum pentoxide for pH measurement under ISFET detection configuration” Microsystem Technologies, Vol. 23, pp. 293-298, 2017.
7. C. H. Yang, C. H. Lin* “Battery-drive atmospheric pressure plasma jet for mass spectrometry applications” Computers & Electrical Engineering, Vol. 54, pp. 210-216, 2016.
8. S. W. Lin, C. H. Lin*, “Chip-Based Cytometry Illuminated by a Blade-Shape Continuous Light for Multispectral Detection” Journal of Applied Science, Vol. 6, No. 8, pp. 229, 2016.
9. C. N. Liu, W. H. Hsieh, Y. C. Tsai, Y. C. Hsu, C. H. Lin, W. H. Cheng, “An Oriented-Dependence-Microlens Visual Alignment and Packaging for Lasers Coupling to PMFs” IEEE Photonics Technology Letters” Vol. 28, 14, pp. 1569-1572, 2016.
10. C. H. Huang, J. J. Lai, J.C. Huang, C.H. Lin, J.S.C. Jang, “Effects of Cu content on electrochemical response in Ti-based metallic glasses under simulated body fluid” Materials Science and Engineering C, 62, pp. 368–376, 2016.
11. C. H. Lin*, S. Y. Su, “Depth position detection for fast moving objects in sealed microchannel utilizing chromatic aberration”, Biomicrofluidics 10, 011904, 2016.
12. C. Y. Lee, A. Mahdavi, J. A. Jiang, M. Cheng, C. H. Lin*, “Sensors and Sensor Networks in Agriculture, Architecture, and Civil Engineering” International Journal of Distributed Sensor Networks, 10.1155/2015/839167, pp. 839167, 2015.
13. W. H. Hsieh, C. N. Liu, Y. C. Huang, C. A. Hsu, S. C. Lei, Y. C. Hsu, Y. C. Tsai, C. H. Lin, C. P. Yu, W. H. Cheng “A New Scheme of Oriented Hyperboloid Microlens for Passive Alignment Lasers to Polarization Maintaining Fibers”IEEE/OSA Journal of Lightwave Technology, Vol. 33(20), pp. 4187-4192, 2015.
14. Y. C. Wu, S. J. Wu, C. H. Lin*, “High Performance EGFET-based pH Sensor Utilizing Low-cost Industrial-grade Touch Panel Film as the Gate Structure“, IEEE Sensors, Vol. 15, No. 11, pp. 6279- 6286 2015.
15. Y.A. Yang and C.H. Lin* “Multiple enzyme-doped thread-based microfluidic system for blood urea nitrogen and glucose detection in human whole blood” Biomicrofluidics 9, 022402, 2015. (SCI, Impact Factor = 3.771)
16. Y.C. Wu, S.J. Wu, C.H. Lin* “Mass-produced polyethylene-terephthalate film coated with tantalum pentoxide for pH measurement under ISFET detection configuration” Microsystem Technologies, 10.1007/s00542-015-2474-y, 2015. (SCI, Impact Factor = 0.952)
17. C. Y. Chen, C. H. Chiang, C. H. Lin* “Novel Symmetric Dielectric Barrier Discharge Atmospheric Pressure Plasma Ion Source for Mass Spectrometry Applications” IEEE Transaction on Plasma Science, Vol. 42(12), pp. 3726 – 3731, 2014.
18. C. S. Chou, Y. C. Wu and C. H. Lin*, “Oxygen Sensor Utilizing Ultraviolet Irradiation Assisted ZnO Nanorods under Low Operation Temperature” RSC Advances, Vol. 4, pp. 52903–52910, 2014. (SCI, Impact Factor = 2.562)
19. C. Y. Wang, H. C. Lee, Y. C. Wu and C. H. Lin*, “High performance CO sensors utilizing sprayed distributed toluene-based gold nanoparticles,” Applied Mechanics and Materials, Vol. 479-480, pp.702-707, 2014.
20. C.H. Huang , Y.S. Huang , Y.S. Lin , C. H. Lin* , J.C. Huang , C.H. Chen , J.B. Li , Y.H. Chen , J.S.C. Jang “Electrochemical and Biocompatibility Response of Newly Developed TiZr-Based Metallic Glasses” Materials Science and Engineering: C, Vol. 43, pp. 343–349, 2014.
21. Y.A. Yang, Y.C Wei, C. H. Lin* “Thread-based Microfluidic System with for Rapid Blood Urea Nitrogen Detection in Whole Blood” Microfluidics and Nanofluidics, Vol. 16(5), pp. 887-894, 2014. (SCI, Impact Factor = 3.218) (Instrument & Instrumentation 4/57)
22. H. C. Lee, C. Y. Wang, C. H. Lin* “High-performance Humidity Sensors Utilizing Dopamine Biomolecule-coated Gold Nanoparticles” Sensors and Actuators B: Chemical, 191, pp. 204–210, 2014. (SCI, Impact Factor = 3.535) (CHEMISTRY, ANALYTICAL 11/75)
23. T. Y. Chiang, C. H. Lin*, “Microfluidic Chip for Ammonium Sensing Incorporating Ion-Selective Membranes Formed by Surface Tension Forces” RSC Advances, Vol: 4(1), pp. 379-385, 2014. (SCI, Impact Factor = 2.562)
24. C. N. Kuo, J. C. Huang, J. B. Li, S.C. Jang, C. H. Lin, T. G. Nieh, “Effects of B2 precipitate size on transformation-induced plasticity of Cu-Zr-Al glassy alloys” Journal of Alloys and Compounds, 590, pp. 453-458, 2014.
25. C. M. Chen, C. H. Lin*, “Biochips with Nano-Ensembles: Integration with Nanoelectrode Ensembles for Biodetection Applications” IEEE Nanotechnology Magazine, Vol. 7(2), pp. 6-14, 2013.
26. S. Y. Su, C. H. Lin*, “Continuous Measurement of Particle Depth in a Microchannel Using Chromatic Aberration” IEEE/OSA Journal of Lightwave Technology, vol. 31(8), pp.1205-1210, 2013. (SCI, Impact Factor = 2.555)
27. C. H. Lin*, C. H. Lan, C. H. Yang, “3-Dimentional Micro-orifice Fabricated Utilizing Single Undercut Etching Process for Producing Ultra-Small Water and Chitosan Droplets” Journal of Nanomaterials, Article ID 275946, 6 pages, 2013. (SCI, Impact Factor = 1.547) (MATERIALS SCIENCE, MULTIDISCIPLINARY 95/241)
28. C. H. Lin*, K. W. Chen, T. Y. Lee “Rapid Soda-lime Glass Etching Process for Producing Microfluidic Channels with Higher Aspect Ratio” Microsystem Technologies, 10.1007/s00542-013-1980-z, 2013. (SCI, Impact Factor = 0.827) (ENGINEERING, ELECTRICAL & ELECTRONIC 152/242)
29. Y.C. Wei, L. M. Fu, C. H. Lin* “Electrophoresis separation and electrochemical detection on a novel thread-based microfluidic device”Microfluidics and Nanofluidics, Vol. 14, pp. 583-590, 2013. (SCI, Impact Factor = 3.218) (Instrument & Instrumentation 4/57)
30. C. H. Lin, C. H. Huang, J. F. Chuang, J. C. Huang, J. S. C. Jang, C. H. Chen“Rapid Screening of Potential Metallic Glasses for Biomedical Applications” Materials Science and Engineering: C, Vol. 33, pp. 4520–4526, 2013. (SCI, Impact Factor = 2.404) ( Materials Science, Biomaterials 11/27)
31. R. J. Yang, H. H. Hou, Y. N. Wang, C. H. Lin, L. M. Fu, “A Hydrodynamic Focusing Microchannel Based on Micro-weir Shear Lift Force” Biomicrofluidics, 6, 034110, 2012 (SCI, Impact Factor = 3.896) (Physic, Fluidics & Plasmas 2/31)
32. C. H. Lin, Y. N. Wang, L. M. Fu “Integrated Microfluidic Chip for Rapid DNA Digestion and Time-Resolved Capillary Electrophoresis Analysis” Biomicrofluidics, 6, 012818, 2012 (SCI, Impact Factor = 3.896) (Physic, Fluidics & Plasmas 2/31) (Selected for publishing on Virtual Journal of Biological Physics Research, March 15, 2012 issue)
33. C. C. Wu, Y. D. Tseng, S. M. Kuo and C. H. Lin* “Fabrication of Asperical Lensed Optical Fibers with An Electro-static pulling of SU-8 Photoresist” Optics Express, Vol. 19, pp. 22993-22998, 2011 (Corresponding author) (SCI, Impact Factor = 3.749) (Optics 5/78)
34. S. W. Lin, P. Y. Wang, A. Chen, C. H. Chang, C. H. Lin* “Wavelength-Resolved Flow Cytometer under a Dark-field Illumination Configuration” IEEE Sensors Journal, Vol. 11, 2845 – 2851, 2011 (Corresponding author) (SCI, Impact Factor = 1.417) (ENGINEERING, ELECTRICAL & ELECTRONIC 75/247, INSTRUMENTS & INSTRUMENTATION 20/61)
35. Y. T. Tseng, J. B. Huang, C. H. Lin, C. L. Chen, and W. H. Cheng “Fabrication of Lensed Plastic Optical Fiber Array Using Electrostatic Force” ASME Journal of Manufacturing Science and Engineering, Vol. 133, Issue 3, 031016, 2011. (SCI, Impact Factor = 0.567) (ENGINEERING, MECHANICAL 70/122)
36. S. M. Kuo, Y. W. Huang, S. M. Yeh, W. H. Cheng, C. H. Lin* “Liquid crystal modified photonic crystal fiber (LC-PCF) fabricated with an un-cured SU-8 photoresist sealing technique for electrical flux measurement” Optics Express, Vol. 19 Issue 19, pp.18372-18379, 2011. (Corresponding author) (SCI, Impact Factor = 3.749) (Optics 5/78)
37. S. W. Lin, C. H. Chang, C. H. Lin* “Review: High-throughput Fluorescence Detections in Microfluidic Systems” Genomic Medicine, Biomarkers, and Health Sciences, 3, pp.23−34, 2011. (Corresponding author) (Invited review article)
38. H. C. Lee, H. H. Hou, R. J. Yang, C. H. Lin*, L. M Fu, “Microflow Cytometer Incorporating Sequential Micro-weir Structure for Three-dimensional Focusing” Microfluidics and Nanofluidics, 11:469–478, 2011. (corresponding author) (SCI, Impact Factor = 3.286) (Instrument & Instrumentation 3/58)
39. K. R. Lin, S. W. Lin, C. H. Chang, C. H. Lin*, “Experimental and numerical estimations into the force distribution on an occlusal surface utilizing a flexible force sensor array” Journal of Biomechanics, Vol. 44, 10, pp. 1879-1884, 2011. (corresponding author) (SCI, Impact Factor = 2.657) (Engineering, Biomedical 16/59)
40. S. M. Kuo, C. C. Yang, J. T. Shiea and C. H. Lin*, “A Post-Bonding-Free Fabrication of Integrated Microfluidic Devices for Mass Spectrometry Applications” Sensors and Actuators B – Chemical, Vol. 156 (1), 10, pp. 156–161, 2011. (corresponding author) (SCI, Impact Factor = 3.083) (Instrument & Instrumentation 5/58)
41. S. W. Lin, C. H. Chang, D. Y. Wu, C. H. Lin* “Digitally synchronized LCD projector for multi-color fluorescence excitation in parallel capillary electrophoresis detection” Biosensors and Bioelectronics, 26, pp. 717-722, 2010. (SCI, Impact Factor = 5.429) (Electrochemistry 1/24, Chemistry, Analytical 2/70) (Corresponding author)
42. S. M. Kuo and C. H. Lin* “Fabrication of aspherical SU-8 microlens array utilizing novel stamping process and electro-static pulling method” Optics Express, Vol. 18, Issue 18, pp. 19114-19119, 2010. (SCI, Impact Factor = 3.278) (Optics, 3/70) (Corresponding author)
43. S. K. Hsiung, S. R. Lin, C. H. Lin “Micro Flow Cytometry Chip Device Integrated with Tunable Microlens for Circulating Tumor Cells Detection and Counting Applications” Japanese Journal of Applied Physics 49 060218, 2010. (SCI, Impact Factor = 1.024) (PHYSICS, APPLIED 76/118)
44. K. S. Huang, K. Lu, C. S. Yeh, S. R. Chung, C. H. Lin, C. H. Yang, Y. S. Dong “Microfluidic controlling monodisperse microdroplet for 5-fluorouracil loaded genipin-gelatin microcapsules” Journal of Controlled Release, 137(1), pp. 15-19, 2009. (SCI, Impact Factor = 5.690) (Chemistry, Multidisciplinary 10/125, Pharmacology & Pharmacy 15/216)
45. S. W. Lin, J. H. Hsu, C. H. Chang, C. H. Lin*, “Objective-type dark-field system applied to multi-wavelength capillary electrophoresis for fluorescent detection and analysis” Biosensors and Bioelectronics, 25, pp. 450-455, 2009. (SCI, Impact Factor = 5.429) (Electrochemistry 1/22) (Corresponding author)
46. C. H. Yang, K. S. Huang, Y.S. Lin, K. Lu, C. C. Tzeng, E. C. Wang, C. H. Lin,W. Y. Hsu, J. Y. Chang , “Microfluidic assisted synthesis of multi-functional polycaprolactone microcapsules: incorporation of CdTe quantum dots, Fe3O4superparamagnetic nanoparticles and tamoxifen anticancer drugs” Lab on a Chip, 9, pp. 961-965, 2009. (SCI, Impact Factor = 5.086) (Chemistry, Multidisciplinary 12/128)
47. C. M. Chen, Y.H. Ho , S. M. Wu, G. L. Chang, C. H. Lin*, “A New Method for CE-EC Determination of Mercaptopurine (MP) in a PMMA Biochip with On-chip Gold Nano-Electrode Ensemble (GNEE) Working and Decouple Electrodes” Journal of Nanoscience and Nanotechnology, 9, pp. 718-722, 2009. (DOI 10.1007/s10404-008-0259-7). (SCI, Impact Factor = 1.929) (Materials Science: multidisciplinary 48/191) (corresponding author)
48. L. M. Fu, J. H. Wang, W. B. Luo, C. H. Lin*,“ Experimental and numerical investigation into the joule heating effect for electrokinetically driven microfluidic chips utilizing total internal reflection fluorescence (TIRF) microscopy” Microfluidics and Nanofluidics, 6(4), pp. 499-507, 2009. (corresponding author) (SCI, Impact Factor = 3.314) (Instrument & Instrumentation 11/52)
49. C. H. Lin, C.Y. Lee, C.H. Tsai and L.M. Fu “Novel Continuous Particle Sorting in Microfluidic Chip Utilizing Cascaded Squeeze Effect” Microfluidics and Nanofluidics, 2009. (DOI 10.1007/s10404-009-0403-z ) (SCI, Impact Factor = 3.314) (Instrument & Instrumentation 11/52)
50. S. M. Kuo and C. H. Lin* “The Fabrication of Non-Spherical Microlens Array Utilizing a Novel SU-8 Stamping Method” Journal of Micromechanics and Microengineering, 18, 125012, 2008. (Corresponding author) (EI, SCI; Impact factor=1.930) (ENGINEERING, MECHANICAL, 10/112; INSTRUMENTS & INSTRUMENTATION, 7/55)
51. C. H. Chen and C. H. Lin* “A Novel Method to Fabricate Ion-Doped Microporous Polyimide Structures for Ultra-High Sensitive Humidity Sensing” Sensors and Actuators – B, 135, 276-282, 2008. (corresponding author) (SCI, Impact Factor = 3.122) (Instrument & Instrumentation 3/53)
52. L. M. Fu, T. F. Hong, C. Y. Wen, C. H. Tsai, C. H. Lin* “Electrokinetic instability effects in microchannels with and without nanofilm coatings” Electrophoresis, 29, 4871-4879, 2008. (corresponding author) (SCI, Impact Factor = 4.101) (CHEMISTRY, ANALYTICAL, 4/68)
53. C. H. Tsai, C. H. Lin, W. B. Luo, J. C. Leong, Z. J. Liu, L. M. Fu, “Rapid analysis of formaldehyde in food utilizing microfluidic mixer chip,” Journal of Functional Materials and Devices, 14, 367-371, 2008. (EI)
54. W. B. Lao, J. C. Leong, C. H. Tsai, C. H. Lin, L. M. Fu, “Micro flow cytometer with 3-D focusing for cell/particle detection,” Journal of Functional Materials and Devices, 14, 436-440, 2008. (EI)
55. C. M. Chen, G. L. Chang, C. H. Lin*, “Performance Evaluation of A Capillary Electrophoresis Electrochemical Chip Integrated with Gold Nanoelectrode Ensemble (GNEE) Working and Decoupler Electrodes” Journal of Chromatography – A, 1194, pp. 231–236, 2008. (corresponding author) (SCI, Impact Factor = 3.554) (Chemistry, Analytical 6/68)
56. S. W. Lin, G. L. Chang, C. H. Lin*, "Novel wavelength-resolved fluorescence detection for a high-throughput capillary electrophoresis system under a diascopic configuration" Journal of Chromatography – A, 1192, pp. 198-201, 2008. (corresponding author) (SCI, Impact Factor = 3.554) (Chemistry, Analytical 6/68)
57. C. H. Lin, J. H. Wang, L. M. Fu, “Improving the separation efficiency of DNA biosamples in capillary electrophoresis microchips using high-voltage pulsed DC electric fields” Microfluidics and Nanofluidics, 5(3), pp. 403-410, 2007. (SCI, Impact Factor = 2.615) (Instrument & Instrumentation 11/52)
58. L. M. Fu, C. H. Tsai, C. H. Lin*, “A High-Discernment Micro-Flow Cytometer with Micro-Weir Structure” Electrophoresis, 29, pp. 1874–1880, 2008. (SCI, Impact Factor = 4.101) (CHEMISTRY, ANALYTICAL, 4/68)
59. C. H. Lin*, C. H. Chen, “Sensitivity Enhancement of Capacitive-type Photoresistor-based Humidity Sensors Using Deliquescent Salt Diffusion Method” Sensors and Actuators – B, 109, PP. 531-537, 2008. (SCI, Impact Factor = 3.122) (Instrument & Instrumentation 3/53)
60. C. H. Lin*, S. M. Kuo, “Micro Impedance Inclinometer with Wide-Angle Measuring Capability and No Damping Effect” Sensors and Actuators – A, 143, pp. 113–119, 2008. (SCI, Impact Factor = 1.434) (Instrument & Instrumentation 12/53)
61. L. M. Fu, C. Y Lee, M. H. Liao, C. H. Lin*, “Fabrication and testing of high-performance detection sensor for capillary electrophoresis microchips”, Biomedical Microdevices, 10, pp. 73-80, 2008. Impact Factor = 3.073) (Engineering, biomedical, 7/42, Nanoscience & Nanotechnology, 6/27)
62. C. C. Lin, A. Chen and C. H. Lin*, “Microfluidic Cell Counter/Sorter utilizing Multiple Particle Tracing Technique and Optically Switching Approach”, Biomedical Microdevices, 10, pp. 55-63, 2008. (SCI, Impact Factor = 3.073) (Engineering, biomedical, 7/42, Nanoscience & Nanotechnology, 6/27)
63. Y. H. Wang, C. Y. Lee, C. H. Lin, L. M. Fu, ”Enhanced sensing characteristics in MEMS-based formaldehyde gas sensors” Microsystem Technology, 14, pp. 995–1000 (2008) (EI, SCI; Impact factor =0.673) (ENGINEERING, ELECTRICAL & ELECTRONIC 107/206)
64. C. N. Yang, C. H. Chao, H. P. Cheng, C. H. Lin*, “A MEMS Based DNA Computer for Solving SAT Problems” IEEE Review on Advances in Micro, Nano, and Molecular Systems (IEEE Review), 2007, 1, 81-82.
65. C. Y. Lee, C. M. Chen, G. L. Chang, C. H. Lin*, L. M. Fu, “Fabrication and characterization of semicircular detection electrodes for contactless conductivity detector – CE microchips” Electrophoresis 27, pp. 5043–5050, 2007. (SCI, Impact Factor = 3.850) (CHEMISTRY, ANALYTICAL, 3/70)
66. C. H. Lin, C. H. Tsai, C. W. Pan, and L. M. Fu*, “Rapid Circular Microfluidic Mixer Utilizing Unbalance Driving Force” Biomedical Microdevices, 9, pp. 43–50, 2007. (SCI, Impact Factor = 3.073) (Engineering, biomedical, 7/41, Nanoscience & Nanotechnology, 6/27)
67. L. M. Fu, C. H. Lin*, “A rapid DNA digestion system” Biomedical Microdevices, 2007, 9, pp. 277–286. (corresponding author) (SCI, Impact Factor = 3.073) (Engineering, biomedical, 7/41, Nanoscience & Nanotechnology, 6/27)
68. C. H. Lin, H. P. Cheng, C. B. Yang, C. N. Yang “Solving satisfiability problems using a novel microarray-based DNA computer” BioSystems, 90, 242–252, 2007. (SCI, Impact Factor = 1.144) (biology, 34/65)
69. K. T. Liao, C. M Chen, H. J. Huang, C. H. Lin*, “Poly (methyl methacrylate) Microdevice Integrated with Gold Nanoelectrode Ensemble (GNEE) for In-column Bio-chemical Reaction and Electrochemical Detection” Journal of Chromatography – A, 1165 (1-2), pp. 213-218, 2007. (corresponding author) (SCI, Impact Factor = 3.554) (Chemistry, Analytical 6/68)
70. C. H. Tsai, H. T. Chen, Y. N. Wang, C. H. Lin*, L. M. Fu* “Capabilities and Limitations of 2-Dimensinal and 3-Dimensional Numerical Methods in Modeling the Fluid Flow in Sudden Expansion Microchannels” Microfluidics and Nanofluidics, Vol. 3, pp.13-18, 2007. (corresponding author) (SCI, Impact Factor = 2.615) (Instrument & Instrumentation 11/52)
71. C. H. Lin*, C. H. Chao, C. W. Lan, “Low azeotropic solvent for bonding of PMMA microfluidic devices”, Sensors and Actuators B – Chemical, 121, pp. 698-705, 2007. (corresponding author), (EI, SCI; Impact factor =2.646) (INSTRUMENTS & INSTRUMENTATION 1/52)
72. C. H. Lin*, J. T. Shiea, Y. L. Lin, “On-chip Fabrication of None-Dead-Volume Microtips for ESI-MS Applications” Solid State Phenomena, Vol. 121-123, pp. 611-614, 2007. (corresponding author) (EI, SCI; Impact factor=0.461) (MATERIALS SCIENCE, MULTIDISPLINE 126/177)
73. Y. S Chien, C. H. Lin*, F. J. Kao, C. W. Ko, “Micro-Flow-Cytometer Integrated with Optical Tweezer and DIP Technique for Cell/Particle Sorting and Manipulation” Solid State Phenomena, Vol. 121-123, pp. 1351-1354, 2007. (corresponding author) (EI, SCI; Impact factor=0.461) (MATERIALS SCIENCE, MULTIDISPLINE 126/177)
74. L. M. Fu, C. H. Tai, C. H. Tsai, C. H. Lin*, C. Y. Lin, “Fabrication of Micromixers Utilizing by Electrokinetic Instability” Journal of Physics:Conference Series, 34, pp. 45–50, 2006.
75. C. Y. Lee, C. H. Lin, L. M. Fu, “Design and Fabrication of 3D-Structured Contactless Capacitive-Type Detector for Capillary Electrophoresis Microchip” Journal of Physics: Conference Series, 34, pp. 51–56, 2006.
76. C. Y. Lee, P. R. Hsieh, C. H. Lin, P. C. Chou, L. M. Fu, C. M. Chiang, “MEMS-based formaldehyde gas sensor integrated with a micro-hotplate” Microsystem Technology, published on-line on 29 March 2006, (2006) (EI, SCI; Impact factor =0.732) (ENGINEERING, ELECTRICAL & ELECTRONIC 90/209)
77. Y. S. Chien, C. H. Lin*, F. J. Kao, C. W. Ko, “A Fully Integrated System for Cell/Particle Sorting in a Microfluidic Device Utilizing an Optical Tweezing and DIP Recognition Approach” Materials Science Forum, Vol. 505-507, pp. 643-648, 2006. (corresponding author) (EI, SCI; Impact factor=0.498) (MATERIALS SCIENCE, MULTIDISPLINE 119/177)
78. C. Y. Lee, C. F. Lin, M. F. Hung, R. H. Ma, C. H. Tsai, C. H. Lin*, L. M. Fu, “Experimental and Numerical Investigation into Mixing Efficiency of Micromixers with Different Geometric Barriers” Materials Science Forum, Vol. 505-507, pp. 391-396, 2006. (corresponding author) (EI, SCI; Impact factor=0.498) (MATERIALS SCIENCE, MULTIDISPLINE 119/177)
79. J. Y. Jeng, C. H. Lin, J. T. Hsieh, “Electrospray from Nanostructured Tungsten Oxide Surfaces with Ultralow Sample Volume” Analytical Chemistry, 77, pp. 8170–8173, 2005. (SCI, Impact Factor =5.450) (CHEMISTRY, ANALYTICAL, 2/70)
80. G. B. Lee, C. H. Lin, G. H. Lee and Y. F. Lin, “On the Surface Modification of Microchannels for Micro Capillary Electrophoresis Chips” Electrophoresis, 26, pp. 4616-4624, 2005. (SCI, Impact Factor = 3.743) (CHEMISTRY, ANALYTICAL, 6/70)
81. C. H. Lin, L. M. Fu and C. H. Tsai, “A Rapid 3-Dimensional Vortex Micromixer Utilizing Self-Rotation Effect under Low Reynolds Number Conditions” Journal of Micromechanics and Microengineering, 15, pp. 935–943, 2005. (EI, SCI; Impact factor=1.755) (ENGINEERING, MECHANICAL, 8/106; INSTRUMENTS & INSTRUMENTATION, 4/49)
82. L. M. Fu, R. J. Yang, C. H. Lin* and Y. S. Chien “A Novel microfluidic mixer utilizing electrokinetic driving forces under low switching frequency” Electrophoresis, 26, pp. 1814-1824, 2005. (corresponding author) (SCI, Impact Factor = 4.325) (CHEMISTRY, ANALYTICAL, 2/67)
83. G. B. Lee, C. H. Lin and S. C. Chang, “Micromachine-based multi-channel flow cytometers for cell/particle counting and sorting” Journal of Micromechanics and Microengineering, 15, pp. 447-454, 2005. (EI, SCI; Impact factor=1.755) (ENGINEERING, MECHANICAL, 8/106; INSTRUMENTS & INSTRUMENTATION, 4/49)
84. S. K. Hsiung, C. H. Lin, G. B. Lee, “A microfabricated capillary electrophoresis chip with multiple buried optical fibers and microfocusing lens for multiwavelength detection, Electrophoresis, 26, pp.1122-1129, 2005 (SCI, Impact Factor =4.325) (CHEMISTRY, ANALYTICAL, 2/67)
85. L. M. Fu and C. H. Lin* ” High-resolution DNA separation in microcapillary electrophoresis chips utilizing double-L injection techniques” Electrophoresis, 25, pp. 3652–3659, 2004. (SCI, Impact Factor =4.325) (Corresponding author) (CHEMISTRY, ANALYTICAL, 2/67)
86. C. Y. Lee, C. H. Lin, L. M. Fu, “Band spreading control in electrophoresis microchips by localized zeta-potential variation using field-effect” The Analyst, 129, 10, pp.931-937, 2004. (SCI, Impact Factor =2.251) (CHEMISTRY, ANALYTICAL, 13/67)
87. C. H. Lin, L. M. Fu and Y. S. Chien, “Microfluidic T-form mixer utilizing switching electroosmotic flow” Analytical Chemistry, 76, pp. 5265-5276, 2004. (SCI, Impact Factor =5.250) (CHEMISTRY, ANALYTICAL, 1/67)
88. C. H. Lin, G. B. Lee, L. M. Fu and B. H. Hwey, “Vertical focusing device utilizing dielectrophoretic force and its application on microflow cytometer” IEEE/ASME Journal of Microelectromechanical Systems, vol. 13, No. 6, pp. 923-932, 2004. (EI, SCI; Impact factor=2.880) (ENGINEERING, ELECTRICAL & ELECTRONIC, 8/208 ; ENGINEERING, MECHANICAL, 4/106)
89. C. H. Lin, G. B. Lee, L. M. Fu, S. H. Chen, “Integrated optical-fiber capillary electrophoresis microchips with novel spin-on-glass surface modification” Biosensors and Bioelectronics, Vol. 20(1), pp. 83-90, 2004. (EI, SCI; Impact factor=2.947) (BIOTECHNOLOGY & APPLIED MICROBIOLOGY, 25/132 ; BIOPHYSICS, 20/66)
90. G. B. Lee, L. M. Fu, C. H. Lin, C. Y. Lee, R. J. Yang, “Dispersion control in microfluidic chips by localized zeta potential variation using the field effect” Electrophoresis, 25, pp. 1879–1887, 2004. (SCI, Impact Factor =4.040) (CHEMISTRY, ANALYTICAL, 2/67)
91. C. H. Lin, R. J. Yang, C. Y. Lee, Chang-Hsien Tai, and L. M. Fu, “Double-L injection technique for high performance capillary electrophoresis detection in microfluidic chips”, Journal of Micromechanics and Microengineering, Vol. 14, pp. 639-646, 2004. (EI, SCI; Impact factor=1.755) (ENGINEERING, MECHANICAL, 8/106 ; INSTRUMENTS & INSTRUMENTATION, 4/49)
92. L. M. Fu, R. J. Yang, C. H. Lin, G. B. Lee and Y. R. Pan, “Electrokinetically driven micro flow cytometers with integrated fiber optics for on-line cell/particle detection”, Analytica Chimica Acta, Vol. 507, issue 1, pp. 163-169, 2004. (EI, SCI=2.114) (CHEMISTRY, ANALYTICAL, 15/67)
93. L. M. Fu, C. H. Lin* “Numerical analysis and experimental estimation of a low-leakage injection technique for capillary electrophoresis” Analytical Chemistry, Vol. 75, pp. 5790-5796, 2003. (EI, SCI=5.250) (corresponding author)(CHEMISTRY, ANALYTICAL, 1/67)
94. C. H. Lin, G. B. Lee, “Micromachined flow cytometers with embedded etched optic fibers for optical detection” Journal of Micromechanic and Microengineering, Vol. 13, pp. 447-453, 2003. (EI, SCI; Impact factor=1.755)
95. C. H. Lin, G. B. Lee, S. H. Chen, G. L. Chang, “Micro capillary electrophoresis chips integrated with buried SU-8/SOG optical waveguides for bio-analytical applications” Sensors and Actuators A, 107, 125-131, 2003. (EI, SCI; Impact factor=1.299)
96. G. B. Lee, C. H. Lin, G. L. Chang, “Micro flow cytometers with buried SU-8/SOG optical waveguides” Sensors and Actuators A, 103, pp. 165-170, 2003. (EI, SCI; Impact factor=1.299)
97. C. H. Lin, G. B. Lee, G. L. Chang, “Micro flow cytometers with buried SU-8/SOG optical waveguides for on-line cell counting”, International Journal of Nonlinear Sciences and Numerical Simulation, Vol. 3, No. 3-4, pp.177-180, 2002. (SCI-E)
98. C. H. Lin, G. B. Lee, B. W. Chang, G. L. Chang, “A new fabrication process for ultra-thick microfluidic microstructures utilizing SU-8 photoresist”, Journal of Micromechanic and Microengineering, Vol. 12, No 5, pp. 590-597, 2002. (EI, SCI; Impact factor=1.211)
99. C. H. Lin, G. B. Lee, Y. H. Lin, G. L. Chang, “A Fast Prototyping Process for Fabrication of Microfluidic Systems on Soda-Lime Glass” Journal of Micromechanic and Microengineering, Vol. 11, No. 6, pp. 726-732, 2001 (EI, SCI; Impact factor=1.141)
100. W. P. Hu, K. A. Lai, I. M. Jou, C. H. Lin, G. L. Chang, ”Study of The Hydroxyapatite (HA)-Coated Acetabular Cups Retrieved at Revision Surgery – Relation of The Residual HA to the Failure Modes”, Journal of Musculoskeletal Research, Vol. 5, No. 4, pp. 217-224, 2001.
101. Y. Cheng, B. Y. Shew, C. H. Lin, and M. K. Chyu, “Concepts for creating ultra deep trenches using deep x-ray lithography”, Sensors and Actuators, Vol. 82, Issue: 1-3, pp. 205-209, 2000. (EI, SCI; Impact factor=1.003)
102. B.-Y. Shew, Y. Cheng, C.-H. Lin, W.-P. Ma, G.-J. Hwang, S.-C. Tseng, C.-L. Kuo, G.-L. Chang, D.-S. Lee, “Manufacture process for LIGA spinnerets”, Sensors and Materials, Vol. 11, No. 6, 329-337, 1999. (EI, SCI; Impact factor=0.562)
Chinese Journal:
1. 林哲緯、林哲信 “創新線微流體系統於生醫檢測之應用” 科儀新知 Vol. 206, pp. 46-58, 2016.
2. 林哲信 ” 2016 IEEE MEMS研討會活動報導” 微系統暨奈米科技協會會刊, Vol. 35, 2016
3. 林哲信 ” 2015 IEEE MEMS研討會活動報導” 微系統暨奈米科技協會會刊, Vol. 33, 2015
4. 林哲信、林世偉 “暗視野螢光激發架構於微流體生物晶片之平行化多波長偵測” Vol. 42:4, pp. 64-89, 2016
5. 林哲信 ” 整合型微流體DNA-酵素反應器及萃取裝置” 科技部 工程技術通訊, 2015
6. 莊雅婷 ; 林哲信 “鈀奈米組合電極研製及其在電化學電泳晶片之應用” 電子月刊Vol. 18:1, pp. 64-80, 2012.
7. 江政鴻、林哲信“大氣電漿游離質譜系統之開發及其應用” 第四期台灣基因醫學暨生物標記學會, 2011
8. 林哲信、李國賓、王榮豪 “2011 IEEE NEMS研討會活動報導” Vol. 25, 2011.
9. 郭書銘、林哲信 ” 2010第十四屆奈米工程暨微系統技術研討會活動報導”, Vol. 24, Nov. 2010.
10. 林岳鋒、林哲信、方國華、黃美華 “PET聚酯織物改質之應用” 紡織綜合研究期刊, Vol. 20:2, Apr. 2010.林哲信 “2009 全球微機電高峰會活動報導” 微系統科技協會季刊, Vol. 21, Aug. 2009.
11. 林哲信 “2008 海峽兩岸納微米研討會活動報導” 微系統科技協會季刊, Vol. 20, Dec. 2008.
12. Che-Hsin Lin, Chen-Chen Lin, Chi-Wei Wu, “整合即時影像辨識及自動化紅外光雷射光鉗系統之微流體細胞分類器” 機械月刊 – 光機電專輯, 2007.
13. Che-Hsin Lin, “單光束雷射光鉗整合微流體系統之應用” 微系統科技協會季刊, Vol. 16, pp. 57-66, Nov. 2006.
14. Che-Hsin Lin, “整合型微流體DNA-酵素反應器及萃取裝置” Engineering Science & Technology Bulletin, NSC, 工程科技通訊, Vol. 83, pp. 167- 170, Dec. 2005.
15. Che-Hsin Lin, Yue-Feng Lin, “大氣電漿系統及其於高分子聚合物表面改質及接合之應用” 化工月刊, 精選文章, Vol. 145, pp. 195-203, April, 2005.
16. Ching-Hsiu Chen, Che-Hsin Lin, “以生物晶片技術應用於研發DNA疫苗” 化工月刊, 精選文章, Vol. 139, pp. 195-203, September, 2004.
17. Che-Hsin Lin, Gwo-Bin Lee, “Polymer-MEMS and Its Applications on Microfluidic Chips for Bio-analysis”,電子月刊 Vol. 90, pp. 144-156, 2003.
18. Gwo-Bin Lee, Che-Hsin Lin, Lung-Ming Fu, Rey-Jen Yang, Bao-Herng Hwei, “微型流式細胞/顆粒計數及分類感測器之研發及其應用”, 科儀新知 Vol. 132, pp.15-24, 2003.
19. K. A Lai, C. C Lee, C. H. Lin, W. P Hu, C. L. Chang, C. Y. Yang, ”Retrieval study of failed acetabular cups”, J. Orthop Surg ROC, Vol. 18, pp. 7-13, 2001.
20. C. H. Lin, Y. Cheng, B. Y. Shew, S. C. Tseng, W. C. Wei, “X光深刻 (LIGA) 超細纖維紡口”, 機械月刊No. 292, pp. 288, November, 1999.
21. C. H. Lin, Y. Cheng, B. Y. Shew, S. C. Tseng, “LIGA spinnerets for microfibers”, Chemical Information Monthly 化工資訊月刊, vol. 13, No. 11, pp. 40 ~ 45, November, 1999.
