林致廷教授的著作列表 - Publication List of Chih-Ting Lin

Publication List of 林致廷 Chih-Ting Lin

Journal articles & book chapters:

  1. Tsai,Huang,Lin,Ma,Lo,Liu,Lin,Lin,Hung,Peng,Lin, “Heart Rhythm Complexity Predicts Long‐Term Cardiovascular Outcomes in Peritoneal Dialysis Patients: A Prospective Cohort Study,” Journal of the American Heart Association, 9, 2, e013036, Jan. 2020
  2. W.-Y. Chuang, C.-C. Wu, Y.-C. Su, H.-H. Chen, H.-W. Chiu, S.-S. Lu, and C.-T. Lin, “A Low-Power PEDOT:PSS/EB-PANI for CO2 Sensing Material Integrated with A Self-Powered Sensing Platform,” IEEE Sensors Journal, Vol. 20, No. 1, 55~61, Jan. 2020
  3. Q.-Z. Xie, M.-W. Lin, W.-E. Hsu, C.-T. Lin, “Advancements of nanoscale structure and materials in impedimetric biosensing technologies,” ECS Journal of Solid State Science and Technology, 9, 115027, 2020
  4. M.-S. Tsai, C.-H. Lin, W.-T. Chen, C.-H. Huang, W.-Y. Woon, and C.-T. Lin, “Temperature effect of low-damage plasma for nitrogen-modification of graphene,” ECS Journal of Solid State Science and Technology, 9, 121007, 2020
  5. Y.-T. Chen, Y.-C. Lee, Y.-H. Lai, J.-C. Lim, N.-T. Huang, C.-T. Lin, J.-J. Huang, “Review of integrated optical biosensors for point-of-care applications,” Biosensors, 10, 209, 2020
  6. C.-H. Lin, W.-T. Chen, C.-H. Huang, W.-Y. Woon, C.-T. Lin, “Effects of π-electron in humidity sensing of artificially stacked graphene bilayers modified with carboxyl and hydroxyl groups,” Sensors and Actuators B: Chemical, 301, 127020~undefined, Dec. 2019
  7. W.-E. Hsu, Y.-H. Chang, C.-T. Lin, “A Machine-Learning Assisted Sensor for Chemo-Physical Dual Sensing Based on Ion-Sensitive Field-Effect Transistor Architecture,” IEEE Sensors Journal, 19, 9983~9990, Nov. 2019
  8. C.-H. Tseng, C. Lin, H.-C. Chang, C.-C. Liu, B. Serafico, L.-C. Wu, C.-T. Lin, T. Hsu, C.-Y. Huang, and M.-T. Lo, “Cloud-Based Artificial Intelligence System for Large-Scale Arrhythmia Screening,” Computer, 52, 40~51, Nov. 2019
  9. C.-H. Lin, M.-S. Tsai, W.-T. Chen, Y.-Z. Hong, P.-Y. Chien, C.-H. Huang, W.-Y. Woon, C.-T. Lin, “A Low-Damage Plasma Surface Modification Method of Stacked Graphene Bilayers for Configurable Wettability and Electrical Properties,” Nanotechnology, 30 (24), 245709, 2019
  10. P.-W. Yen, S.-C. Lin, Y.-C. Huang, Y.-J. Huang, Y.-C. Tung, S.-S. Lu, and C.-T. Lin, “A Low-Power CMOS Microfluidic Pump Based on Travelling-Wave Electroosmosis for Diluted Serum Pumping,” Scientific Reports, 9, 14794, 2019
  11. Y.-P. Lu, J.-W. Huang, I.-N. Lee, R.-C. Weng, M.-Y. Lin, J.-T. Yang, and C.-T. Lin, “A Portable System to Monitor Saliva Conductivity for Dehydration Diagnosis and Kidney Healthcare,” Scientific Reports, 9, 14771, 2019
  12. Y.-C. Kuo, C.-K. Lee, C.-T. Lin, “Improving sensitivity of a miniaturized label-free electrochemical biosensor using zigzag electrodes,,” Biosensors and Bioelectronics, 103, 130~137, 2018
  13. Y.-C. Syu, W.-E. Hsu, C.-T. Lin, “Field-Effect Transistor Biosensing: Devices and Clinical Applications,” ECS Journal of Solid State Science and Technology, 7, 3196~3207, 2018
  14. C.-H. Tsai, C. Lin, Y.-H. Ho, M.-T. Lo, L.-Y. Liu, C.-T. Lin, J.-W. Huang, C.-K. Peng, and Y.-H. Lin, “The association between heart rhythm complexity and the severity of abdominal aorta calcification in potential dialysis patients,” Scientific Reports, 2018, 8, 15627, 2018
  15. S.-C. Lin, Y.-L. Sung, C.-C. Peng, Y.-C. Tung, C.-T. Lin, “An In-Situ Filtering Pump for Particle-Sample Filtration Based on Low-Voltage Electrokinetic Mechanism,” Sensors and Actuators B, 238, 809~816, 2017
  16. E. Jen, T.-H. Hsieh, T.-C. Lu, M.-C. Chen, F.-J. Lee, C.-T. Lin, S.-C. Chen, P.-Y. Chu, C.-W. Peng, C.-W. Lin, “Effects of Pulsed-radiofrequency neuromodulation on the rat with overactive bladder,” Neurourology & Urodynamics, 36, 1734~1741, 2017
  17. P.-H. Lin and C.-T. Lin, “Effects of Silicon Interface and Frequency Dependence in Solution-Processed High-K Poly(Vinylidene Fluoride-Trifluoroethylene-Chlorotrifluoroethylene) Dielectric Characteristics,” Thin Solid Films, 628, 75~80, 2017
  18. C.-C. Wu, W.-Y. Chuang, C.-D. Wu, Y.-C. Su, Y.-Y. Huang, Y.-J. Huang, S.-Y. Peng, S.-A. Yu, C.-T. Lin, and S.-S. Lu, “A Self-Sustained Wireless Multi-Sensor Platform Integrated with Printable Organic Sensors for Indoor Environmental Monitoring,” Sensors, 17, 715, 2017
  19. J.-K. Lee, I.-S. Wang, C.-H. Huang, Y.-F. Chen, N.-T. Huang, C.-T. Lin, “Pre-clinical tests of an integrated CMOS biomolecular sensor for cardiac diseases diagnosis,” Sensors, 17, 2733, 2017
  20. S.-C. Lin, Y.-C. Tung, C.-T. Lin, “A Frequency-Control Particle Separation Device Based on Resultant Effects of Electroosmosis and Dielectrophoresis,” Applied Physics Letters, 109, 0537101, 2016
  21. H.-T. Hsueh and C.-T. Lin, “An incremental double-layer capacitance of a planar nano gap and its application in cardiac-troponin T detection,” Biosensors and Bioelectronics, 79, 636~643, 2016
  22. D.-H. Kuan, I.-S. Wang, J.-R. Lin, C.-H. Yang, C.-H. Huang, Y.-H. Lin, C.-T. Lin, and N.-T. Huang, “A microfluidic device integrating dual CMOS polysilicon nanowire sensors for on-chip whole blood processing and the simultaneous detection of multiple analyte,” Lab chip, 16, 3105~3113, 2016
  23. S.-H. Shen, I-Shun Wang, Hua, Cheng, C.-T. Lin, “An enhancement of high-k/oxide stacked dielectric structure for silicon-based multi-nanowire biosensor in cardiac troponin I detection,” Sensors and Actuators B: Chemical, 218, 303~309, Oct. 2015
  24. K.-S. Chiang, W.-L. Cheng, C.-M. Shih, Y.-W. Lin, N.-W. Tsao, Y.-T. Kao, C.-T. Lin, S.-C. Wu, C.-Y. Huang, F.-Y. Lin, “Statins, HMG-CoA reductase inhibitors, improve neovascularization by increasing the expression density of CXCR4 in endothelial progenitor cells,” PLOS ONE, 2015, 10.1371/journal.pone.0136405, Aug. 2015
  25. W.-C. Chang, W. C. Ko, J. Shieh, C.-T. Lin, A.-B. Wang, and C.-K. Lee, “A photo-sensitive piezoelectric composite material of poly(vinylidene fluoride-trifluoroethylene) and titanium oxide phthalocyanine,” Materials Chemistry and Physics, 149, 254~260, Jan. 2015
  26. K.-S. Chiang, W.-L. Cheng, C.-M. Shih, Y.-W. Lin, N.-W. Tsao, Y.-T. Kao, C.-T. Lin, S.-C. Wu, C.-Y. Huang, F.-Y. Lin, “Statins, HMG-CoA reductase inhibitors, improve neovascularization by increasing the expression density of CXCR4 in endothelial progenitor cells,” PLOS ONE, DOI: 10.1371/journal.pone.0136405, 2015
  27. W.-Y. Chuang, S.-Y. Yang, W.-J. Wu, and C.-T. Lin, “A room-temperature operation formaldehyde sensing material printed using blends of reduced graphene oxide and poly(methyl methacrylate),” Sensors, 15, 28842~28853, 2015
  28. Y.-C. Kuo, C.-S. Chen, K.-N. Chang, C.-T. Lin, and C.-K. Lee,, “Sensitivity improvement of a miniaturized label-free electrochemical impedance biosensor by electrode edge effect,” Journal of Micro/Nanolithography, MEMS, and MOEMS, 13, 033019, Sept. 2014
  29. P.-W. Yen, C.-W. Huang, Y.-J. Huang, M.-C. Chen, H.-H. Liao, S.-S. Lu, and C.-T. Lin, “A device design of an integrated CMOS poly-silicon biosensor-on-chip to enhance performance of biomolecular analytes in serum samples,” Biosensors and Bioelectronics, 61, 112-118, May 2014
  30. C.-H. Lee, W.-Y. Chuang, M. A. Cowan, W.-J. Wu, and C.-T. Lin, “A low-power integrated humidity CMOS sensor by printing-on-chip technology,” Sensors, 14, 9247-9255, May 2014
  31. Y.-J. Huang, T.-H. Tzeng, T.-W. Lin, C.-W. Huang, P.-W. Yen, P.-H. Kuo, C.-T. Lin, and S.-S. Lu, “A Self-powered CMOS Reconfigurable Multi-sensor SoC for Biomedical Applications,” IEEE Journal of Solid State Circuits, 49, 851-866, Apr. 2014
  32. C.-H. Lee, C.-H. Hsu, I.-R. Chen, W.-J. Wu, and C.-T. Lin, “Percolation of Carbon Nanoparticles in Poly(3-Hexylthiophene) Enhancing Carrier Mobility in Organic Thin Film Transistors,” Advances in Materials Science and Engineering, 2014, 878064, Feb. 2014
  33. P.-W. Yen, Y.-P. Lu, C.-T. Lin, C.-H. Hwang, M.-Y. Lin, “Emerging Electrical Biosensors for Detecting Pathogens and Antimicrobial Susceptibility Tests,” Current Organic Chemistry, 18, 165-172, Jan. 2014
  34. M. Skibniewski, H.-P. Tserng, S.-H. Ju, C.-W. Feng, C.-T. Lin, J.-Y. Han, K.-W. Weng, and S.-C. Hsu, “Web-based real time bridge scour monitoring system for disaster management,” The Baltic Journal of Road and Bridge Engineering, 9, 17-25, Jan. 2014
  35. M.-Y. Chen, C.-W. Lin, C.-T. Lin, and Y.-C. Lin,, “A Mobile Drowsiness Detection System with Aid of Real-Time EOG Monitoring and Infrared Ray Imaging,” Journal of Image Processing and Communication, 5, 79-84, Oct. 2013
  36. C.-H. Lee, W.-Y. Chuang, S.-H. Lin, W.-J. Wu, C.-T. Lin *, “A Printable Humidity Sensing Material Based on Conductive Polymer and Nanoparticles Composites,” Japanese Journal of Applied Physics, 52, DOI: 10.7567/JJAP.52.05DA08, 2013
  37. C.-W. Huang, H.-T. Hsueh, Y,-J. Huang, H.-H. Liao, H.-H. Tsai, Y.-Z. Juang, T.-H. Lin, S.-S. Lu, C.-T. Lin*, “A Fully Integrated Wireless CMOS Microcantilever Lab Chip for Detection of DNA from Hepatitis B Virus (HBV),” Sensors and Actuators B, 181, 867-873, 2013
  38. H.-P. Tserng, J.-Y. Han, M. Asce, C.-T. Lin, M. Skibniewski, and K.-W. Weng, “GPS-based real-time guidance information system for marine pier construction,” J Surv Eng, 139, 84-94, 2013
  39. S.-C. Lin, J.-C. Lu, Y.-L. Sung, C.-T. Lin*, and Y.-C. Tung, “A low sample volume particle separation device with electrokinetic pumping based on circular travelling-wave electroosmosis,” Lab Chip, 13, 3082-3089, 2013
  40. Y.-J. Huang, C.-W. Huang, T.-H. Lin, C.-T. Lin, L.-G. Chen, P.-Y. Hsiao, B.-R. Wu, H.-T. Hsueh, B.-J. Kuo, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, C.-K. Wang, S.-S. Lu, “A CMOS cantilever-based label-free DNA SoC with Improved sensitivity for Hepatitis B Virus detection,” IEEE Transactions on Biomedical Circuits and Systems, DOI: 10.1109/TBCAS.2013.2247761, 2013
  41. C.-W. Huang, Y.-J. Huang, P.-W. Yen, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, S.-S. Lu, and C.-T. Lin*, “A CMOS wireless biomolecular sensing system-on-chip based on polysilicon nanowire technology,” Lab Chip, 13, 4451 – 4459, 2013
  42. W.-C. Chang, W.-C. Ko, H.-L. Chen, C.-T. Lin, A.-B. Wang, C.-K. Lee, “Photoconductive Piezoelectric Polymer Made From a Composite of P(VDF-TrFE) and TiOPc,” Ferroelectrics, 446, 9-17, 2013
  43. W.-J. Wu, C.-H. Lee, C.-H. Hsu, S.-H. Yang, and C.-T. Lin*, “Adjustable threshold-voltage in all-inkjet-printing organic thin film transistor by double-layer dielectric structures,” Thin Solid Film, 548, 576-580, 2013
  44. H.-P. Tserng, C.-T. Lin, J.-Y. Han, S.-M. Wang, C.-H. Hsu, S.-Y. Lee, “The development process research of wireless bridge vibration monitoring,” International Journal of Engineering & Technology, 5, 580-585, 2013
  45. Huang, C.-W., Huang, Y.-J., Lu, S.-S., and Lin, C.-T.*,, “A fully integrated humidity sensor system-on-chip fabricated by micro-stamping technology,” Sensors, 12, 11592-11600, 2012
  46. Lin, C. W., Tai, Y., Liaw, D. J., Chen, M. C., Huang, Y. C., Lin, C. T., Huang, C. W., Yang, Y. J., and Chen, Y. F., “Towards transparent electronics: fabrication of an organic transistor with a wide bandgap polymer,” Journal of Materials Chemistry, 22, 57-59, 2012
  47. Huang, J.-D., Wu, W.-J., Lin, C.-T., “High efficient synchronization-on-demand protocol of IEEE 802.15.4 wireless sensor network for construction monitoring,” International Journal of Automation and Smart Technology, 2, 103-109, 2012
  48. Chung, S.-L., Wang, Y.-L., Tsai, C.-H., Lin, C.-T., “On-chip biological patterning controlled by electrical potential,” Microelectronic Engineering, 98, 711-714, 2012
  49. Huang, J.-D., Lee, C.-K., Yeh, C.-S., Wu, W.-J., and Lin, C.-T.*, “High Precision Ultrasonic Ranging System Using a Self-Interference Technique,” IEEE Transaction of Instrumentation and Measurement, 60, 3775 - 3780, Dec. 2011
  50. Lin, C.-T.*, Hsu, C.-H., Chen, Y.-J., Lee C.-H., and Wu, W.-J., “Enhancement of Carrier Mobility in All-Inkjet-Printed Organic Thin-film Transistors Using a Blend of Poly(3-hexylthiophene) and Carbon Nanoparticles,” Thin Solid Films, 519, 8008-8012, Sept. 2011
  51. Lin, C.-T. and Lin, C.-H., “A Statistical Nano-Mechanism of Biomolecular Patterning Actuated by Surface Potential,” Journal of Applied Physics, 109, DOI: 10.1063/1.3533982, Feb. 2011
  52. Lin, C.-T.*, Hsu, C.-H., Lee C.-H., and Wu, W.-J., “Inkjet-Printed Organic Field-Effect Transistor by Using Composite Semiconductor Material of Carbon Nanoparticles and Poly(3-hexylthiophene),” Journal of Nanotechnology, 2011, Article ID 142890, 7 pages, 2011
  53. Lin, C.-T., Chung, S.-L., Lin, C.-H., Kuo, P.-L., and Li, C.-H., “The Configurable-Biomolecular Nano Pattern Controlled by Surface Potential,” Microelectronic Engineering, 88, 1785-1788, 2011
  54. Lin, C.-T, Meyhofer, E., Kurabayashi, K, “Predicting the stochastic guiding of kinesin-driven microtubules in microfabricated tracks: A statistical-mechanisc-based modeling approach,” Physical Review E, 81, 011919, 2010
  55. Tseng J.-J., Lin, C.-H., Lin, C.-T., Wang S.-C., Li, S.-P., “Statistical properties of agent-based models in markets with continuous double auction mechanism,” Physica A-Statistical Mechanics and Its Applications, 389, 8, pp.1699-1707, 2010
  56. Lin, C.-T. and Huang, C.-W., “Low-Power and High-Sensitivity Humidity Sensor Using Fe-Al-Polyaniline Blends,” IEEE Sensors Journal, 10, 6, pp1142-1146, 2010
  57. H. R. Lin, C. S. Chen, P. Y. Chen, F. J. Tsai, J. D. Huang, J. F. Li, C.-T. Lin, and W.J. Wu, “Design of Wireless Sensor Network and Its Application for Structure Health Monitoring of Cable-stayed Bridge,” Smart Structures and Systems, 6, pp. 939-951, 2010
  58. Lin, C.-T., Kao, M.-T., Meyhofer, E., Kurabayashi, K., “Surface landing of microtubule nanotracks influenced by lithographically patterned channels,” Applied Physics Letters, 95, 103701, 2009
  59. Lin, C.-T., Kao, M.-T., Kurabayashi, K., Meyhofer, E., “Self-contained, biomolecular motor-driven protein sorting and concentrating in an ultrasentive microfluidic chip,” Nano Letters, 8, 1033-1040, 2008
  60. Lin, C.-T., Kao, M.-T., Kurabayashi, K., Meyhofer, E., “Efficient Designs for Powering Microscale Devices with Nanoscale Biomolecular Motors,” Small, 2, 281-287, Mar. 2006
  61. Tung, Y.-C., Zhang, M., Lin, C.-T., Kurabayashi, K., and Skerlos, S.J., “PDMS-based opto-fluidic micro flow cytometer with two-color, multi-angle fluorescence detection capability using PIN photodiodes,” Sensors and Actuators B, 98, 356-367, 2004
  62. C. K. Lee, W. H. Hsiao, H. C. Shih, C. T. Lin, T. C. T. Teng, and J. G. Y. Wu, “Investigating Distributed Sensor/Point Actuator Testbeds by Using A Differential Laser Doppler Interferometer,” AIAA, 39, 697-703, 2001
  63. C. K. Lee, G. Y. Wu, Thomas C. T. Teng, W. J. Wu, C. T. Lin, W. H. Hsiao, H. C. Shih, J. S. Wang, Sam S. C. Lin, Colin C. Lin, C. F. Lee, and Y. C. Lin, “A High Performance Doppler Interferometer for Advanced Optical Storage Systems,” Japanese Journal of Applied Physics, 38, 1730-1741, 1999
  64. C. K. Lee, C. T. Lin, C. C. Hsiao, and W. C. Liaw,, “New Tools for Structural Testing: Piezoelectric Hammers and Acceleration Rate Sensors,” Journal of Guidance, Control, and Dynamics, 21, 692-697, 1998

Conference & proceeding papers:

  1. Y.-C. Chen, C.-T. Lin, “A low-k interfacial layer iinduced by interface trap charge for P(VDF0.75-TrFE0.25) in metal-organic ferroelectric-semiconductor device,” 2019 Materials Research Society Fall Meeting, Boston, Massachusetts, U.S.A, Dec. 2019
  2. M.-H. Tsai, C.-H. Lin, C.-H. Huang, W.-Y. Woon, C.-T. Lin, “Using nitrogen modified graphene through low-damage plasma treatment to sense the ionic concentration,” 13th Asian Conference on Chemical Sensors, Bali, Indonesia, Nov. 2019
  3. M.-H. Tsai, C.-H. Lin, C.-H. Huang, W.-Y. Woon, C.-T. Lin, “Ionic concentration sensing via nitrogen modified graphene through low-damage plasma treatment,” IEEE Sensors 2019, Montreal, Canada, Oct. 2019
  4. Y.-C. Chen, C.-T. Lin, “Investigation of interface characteristics in P(VDF0.75-TrFE0.25) organic ferroelectric capacitor,” 14th IEEE Nanotechnology Materials and Devices Conference, Stockholm Sweden, Oct. 2019
  5. W.-E. Hsu, Y.-H. Chang, Y.-J. Huang, J.-C. Huang, C.-T. Lin, “A pH/Light Dual-Modal Sensing ISFET Assisted by Artificial Neural Networks,” 235th ECS Meeting, Dallas TX, U.S.A., May 2019
  6. N.-Y. Teng, G.-Y. Chen, R.-X. Wang, C.-T. Lin, “An Ion-Sensitive Field-Effect Transistor with Three-Dimensional Extended-Gate Architecture,” 235th ECS Meeting, Dallas TX, U.S.A., May 2019
  7. Y.-C. Huang, J.-S. Jheng, K.-H. Chiang, C.-T. Lin, “An In-Situ Impedance-Based Whole Blood Anticoagulation Diagnosis Technology,” 235th ECS Meeting, Dallas TX, U.S.A., May 2019
  8. M.-S. Tsai, C.-H. Lin, W.-T. Chen, C.-H. Huang, W.-Y. Woon, C.-T. Lin, “Low-Damage-Plasma Modification on Graphene for Gas-Detection Applications,” The 14th IEEE International Conference on Nano/Micro Engineered and Molecular System, Bangkok, Thailand, Apr. 2019
  9. C.-H. Lin, M.-S. Tsai, C.-H. Huang, W.-Y. Woon, M. Islam, C.-T. Lin, “Artificial-Stacked-Bilayer Graphene Modifications with Low-Damage Plasma,” The 86th Electrochemistry Society of Japan Spring Meeting, Kyoto, Japan, Mar. 2019
  10. C.-H. Lin, M.-S. Tsai, W.-T. Chen, C.-H. Huang, W.-Y. Woon, C.-T. Lin, “The Stability of Humidity Sensor Response in Graphene by Low Damage Plasma,” MRS meeting, Boston, MA, U.S.A, Nov. 2018
  11. Y.-H. Chang, W.-E. Hsu, J.-C. Huang, Y.-J. Huang and C.-T. Lin, “A Chemical-Photo Reconfigurable Sensor by Dual-Gate ISFET,” The 22st International Conference on Miniaturized System for Chemistry and Life Science (μTAS 2018), Kao-Hsiung, Taiwan, Oct. 2018
  12. W.-E. Hsu, T.-A. Ku, C.-Y. Lee, C.-I. Wu and C.-T. Lin, “A Reconfigurable Field-Effect Sensor By Single-Layer Graphene for Opto-Electro-Chemical Sensing Applications,” 233st Electrochemical Society Meeting, Seattle, WA, U.S.A., May 2018
  13. T.-W. Wu, Y.-J. Huang, C.-H. Gao and C.-T. Lin, “Microelectrode Design for Electro-Impedance Cell Counting Technology,” 11th IEEE International Conference on Nano/Molecular Medicine and Engineering, Shenzhen, China, Dec. 2017
  14. W.-Y. Chuang, H.-H. Chen, Y.-C. Su, and C.-T. Lin, “Printable sensing materials for low-power consumption applications,” 18th International Union of Materials Research Societies International Conference in Asia, Taipei, Taiwan, Nov. 2017
  15. T.-W. Wu, C.-H. Gao, and C.-T. Lin, “Electrode spatial design for a new microfluidics impedance flow cytometer,” The 21st International Conference on Miniaturized System for Chemistry and Life Science (μTAS 2017), Savannah, Georgia, U.S.A., Oct. 2017
  16. C.-H. Gao, T.-W. Wu, and C.-T. Lin, “A Microfluidic Particle-analyzing Device with Novel Coplanar Electrode Design Based on Impedance Sensing,” 17th IEEE International Conference on Nanotechnology, Pittsburgh, PA, U.S.A., Jul. 2017
  17. W.-Y. Chuang, C.-C. Wu, S.-S. Lu, and C.-T. Lin, “A printable conductive polymer CO2 sensor with high selectivity to humidity,” 19th International Conference on Solid-State Sensors, Actuators, and Microsystem (Transducer 2017), Kaohsiung, Taiwan, Jun. 2017
  18. H.-T. Hsueh, P.-H. Chen, F.-E. Chen, M.S. Tsai, T.-W. Wu, and C.-T. Lin, “Incremental Interface Surface Potential Measured with a Nano-Gap Coplanar Device Structure and Its Applications,” 231st Electrochemical Society Meeting, New Orleans, LA, U.S.A., May 2017
  19. T.-Y. Liu, P.-W. Yen, D.-Y. Chang, and C.-T. Lin, “CMOS-based Biomolecular Diagnosis Platform,” 12th IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS 2017), Los Angeles, CA, U.S.A., Apr. 2017
  20. T.-W. Wu, C.-H. Gao, F.-E. Chen, and C.-T. Lin, “Impedance Spectroscopy for Microfluidic Particle-analyzing Device with Spatial-Coplanar Electrode Design,” 12th IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS 2017), Los Angeles, CA, U.S.A., Apr. 2017
  21. F.-E. Chen, T.-W. Wu, H.-T. Hsiao, P.-H. Chen, M.-S. Tsai, C.-T. Lin, “A Nano-Gap Field-Effect Biosensor Based on Solid-Liquid Interfacial Potential,” 12th IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS 2017), Los Angeles, CA, U.S.A., Apr. 2017
  22. P.-W. Yen, S.-C. Lin, C.-W. Huang, and C.-T. Lin, “CMOS technologies for analytical bio-diagnosis,” 4th International Conference on Electronic Materials and Nanotechnology for Green Environment (ENGE 2016),, Jeju, Korea, Nov. 2016
  23. D.-H. Kuan, I-S.Wang, C.-T. Lin and N.-T. Huang, “A microfluidic device integrated dual CMOS polysilicon nanowire sensors for on-chip whole blood processing and simultaneous detection of multiple analytes,” 20th International Conference on Miniaturized Systems for Chemistry and Life Science (MicroTAS 2016), Dublin, Ireland, Oct. 2016
  24. I.-S. Wang, W.-Y. Chuang, S.-P. Yeh, and C.-T. Lin, “A degradation preventing method for the organic material in gas sensing application by using CMOS submicron wire sensor,” 30th Eurosensors Conference, Budapest, Hungary, Sept. 2016
  25. I.-S. Wang and C.-T. Lin, “Glycated hemoglobin detection in clinical blood sample by using CMOS poly-silicon sub-micron wire biosensor,” 30th Eurosensors Conference, Budapest, Hungary, Sept. 2016
  26. T.-W. Wu, C.-H. Kao, and C.-T. Lin, “A Microfluidic Cell Counting Device Based on Impedance Analysis,” 16th International Meeting on Chemical Sensors, Jeju, Korea, Jul. 2016
  27. I.-S. Wang, P.-H. Chen, Y.-J. Liao, C.-H. Gao, H.-T. Hsueh, and C.-T. Lin, “Organic High-K Dielectric P(VDF-TrFE-CTFE) Sensing Membrane for pH Sensing Application,” 16th International Meeting on Chemical Sensors, Jeju, Korea, Jul. 2016
  28. H.-T. Hsueh and C.-T. Lin, “The enhancement of capacitive biosensor detection limit by modulating the surface potential in submicron gap of coplanar electrodes,” 26th Anniversary World Congress on Biosensors (Biosensors 2016), Gothenburg, Sweden, May 2016
  29. Y.-J. Liao, S.-C. Lin, C.-H. Gao, C.-T. Lin, “An Multifuntional Micro-Pump for Sample Selection Based on Low-Voltage Electrokinetic Mechanism,” 229th Electrochemical Society Meeting, San Diego, U.S.A., May 2016
  30. H.-T. Hsueh, P.-H. Chen, and C.-T. Lin, “A nano-gap biosensor using nano-patterned conductive molecule for cTnT detection,” 11th IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS 2016), Matsushima Bay, Japan, Apr. 2016
  31. H.-T. Hsueh, P.-H. Chen, and C.-T. Lin, “A nano-gap biosensor using nano-patterned conductive molecule for cTnT detection,” 11th IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS 2016), Matsushima Bay, Japan, Apr. 2016
  32. Y.-H. Sun, G.-Y. Chen, C.-T. Lin, J.-C. Huang, Y.-J. Huang, and C.-H. Wen, “A sub-micron CMOS-based ISFET array for biomolecular sensing,” 11th IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS 2016), Matsushima Bay, Japan, Apr. 2016
  33. C.-W. Ma, C.-M. Chang, H.-T. Hsueh, P.-H. Kao, C.-T. Lin, C.-T. Lin, S.-S. Lu, and Y.-J. Yang, “A parylene micropipette array for enabling simultaneous detection of different target analytes on a CMOS sensor arra,” 29th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2016), Shanghai, China, Jan. 2016
  34. Y.-H. Ho, C. Lin, C.-T. Lin, J.-W. Huang, V.-Cent. Wu, Y.-H. Lin, “The association among serum vascular calcification markers and heart rate variability parameters in patients with peritoneal dialysis,” 8th Asia Pacific Heart Rhythm Society Scientific Sessions, Melbourne, Australia, Nov. 2015
  35. D.-H. Kuan, I-S. Wang, C.-T. Lin, and N.-T. Huang, “A multi-functional microfluidic platform integrated with dual CMOS polysilicon nanowire sensor for simultaneous hemoglobin and glycated hemoglobin detection,” 19th International Conference on Miniaturized Systems for Chemistry and Life Science (MicroTAS 2015), Gyeongju, Korea, Oct. 2015
  36. W. Wang, Y.-C. Su, W.-Y. Chuang, C.-T. Lin, and W.-J. Wu, “An inkjet printed NO2 sensor operating under room temperature and low humidity environment,” TechConnect World 2015, Washington, D.C. , U.S.A., Jun. 2015
  37. I.-S. Wang, J.-K. Lee, H.-H. Lin, Y.-H. Sun, G.-Y. Chen, and C.-T. Lin, “A CMOS-based poly-silicon sub-micron wire biosensor for multiple biomarker detections in clinical samples,” 18th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers 2015), Anchorage, Alaska, U.S.A., Jun. 2015
  38. I.-S. Wang, J.-K. Lee, C.-C. Peng, H.-H. Tsai, H.-H. Liao, C.-T. Lin, “A CMOS based polysilicon nanowire biosensor for monitoring the cardiovascular disease markers in human serum,” 17th International Conference on Sensors and Measurement Technology, Nuremberg, Germany, May 2015
  39. P.-H. Kuo, J.-C. Kuo, H.-T. Hsueh, J.-Y. Hsieh, Y.-C. Huang, T. Wang, Y.-H. Lin, C.-T. Lin, Y.-J. Yang, and S.-S. Lu, “A smart CMOS ELISA SoC for Rapid Whole Blood Screening Test of Disease Risk Assessment,” 2015 IEEE International Solid-State Circuits Conference (ISSCC), San Francisco, U.S.A., Feb. 2015
  40. H.-C. Shing, C.-H. Kao, S.-C. Lin, and C.-T. Lin, “The optimization of the dielectricphoresis electrode to enhance separation efficiency by genetic algorithm,” 4th European Conference on Microfluidics, Limerick, Ireland, Dec. 2014
  41. S.-Y. Yang, W.-Wang, W.-J. Wu, and C.-T. Lin, “Spin Coating Graphene Composite Inks for VOCs Gas Sensor Detection,” 25th International Conference on Adaptive Structures and Technologies, Hague, Netherlands, Oct. 2014
  42. T.-R. Lin, H.-T. Hsueh, P.-S. Huang, L.-H. Hou, H.-A. Chu, and C.-T. Lin, “Improved photocurrents of Photosystem II-based biosensor for herbicides by polyacrylamide gels,” n, “Improved photocurrents of Photosystem II-based biosensor for herbicides by polyacrylamide gels,” 5th International Confere, San Diego, California, U.S.A., Oct. 2014
  43. P.-W. Yen, S.-C. Lin, Y.-C. Huang, Y.-J. Huang, H.-H. Tsai, H.-H. Liao, S.-S. Lu, and C.-T. Lin, “A Microfluidic-Integrated Biosensing SoC for Cardiac Troponin I Detection in 0.35μm CMOS Process,” 18th International Conference on Miniaturized Systems for Chemistry and Life Science, San Antonio, Texas, U.S.A., Oct. 2014
  44. S.-H. Shen, H. Cheng, T.-Y. Kao, M.-J. Chen, and C.-T. Lin, “Silicon-based multi-nanowire biosensor with high-k dielectric and stacked oxide sensing membrane for cardiac troponin I detection,” Eurosensor 2014, Brescia, Italy, Sept. 2014
  45. I.-S. Wang, H.-H. Lin, P.-W. Yen, and C.-T Lin, “A CMOS based polysilicon nanowire biosensor platform for different biological targets,” Eurosensor 2014, Brescia, Italy, Sept. 2014
  46. S.-H. Shen, C.-Y. Ting, C.-Y. Liu, H. Cheng, S.-I. Liu, C.-T. Lin, “A Silicon Nanowire-Based Bio-sensing System with Digitized Outputs for Acute Myocardial Infraction Diagnosis,” IEEE-EMBS International Conferences on Biomedical and Health Informatics (IEEE BHI), Valencia, Spain, Jun. 2014
  47. Y.-C. Lien, N.-C. Wang, and C.-T. Lin, “The wireless sensor network system for system structure health monitoring,” Workshop on Resilient ICT for Management of Mega Disasters, Sydney, Australia, Jun. 2014
  48. P.-S. Huang, T.-R. Lin, H.-A. Chu, C.-T. Lin, “A Study of an Energy Harvesting Device Based on Photosystem-II Protein Complex,” IEEE International Symposium on Bioelectronics and Bioinformatics, Taoyuan, Taiwan, Apr. 2014
  49. W.-Y. Chuang, C.-H. Lee, C.-C. Chen, W.-J. Wu, and C.-T. Lin, “An inkjet-printable CO2 sensor based on Polypyrrole/AZO sensing material,” The 15th International Meeting on Chemical Sensors, Buenos Aires, Argentina, Mar. 2014
  50. C.-H. Hsu, C.-T. Lin, H.-P. Tserng, and J.-Y. Han, “An implementation of Light-Weight Compression Algorithm for Wireless Sensor Network Technology in Structure Health Monitoring,” IEEE World Forum on Internet of Things (WF-IoT), Seoul, Korea, Mar. 2014
  51. J.-C. Kuo, P.-H. Kuo, H.-T. Hsueh, C.-W. Ma, C.-T. Lin, S.-S. Lu, and Y.-J. Yang, “A Capacitive Immunosensor Using On-chip Electrolytic Pumping and Magnetic Washing Techniques for Point-Of-Care Applications,” The 27th IEEE International Conference on Micro Electro Mechanical Systems (IEEE MEMS 2014), San Francisco, USA, Jan. 2014
  52. C.-H. Lee, W.-Y. Chuang, C.-H. Hsu, S.-B. Liu, W.-J. Wu, and C.-T. Lin, “Graphene Blender Organic Thin Film Transistor Fabricated by All-Inkjet-Printing Technique,” The 12th International Conference on Automation Technology, Tainan, Taiwan, Nov. 2013
  53. Y.-L. Sung, S.-C. Lin, W.-Y. Chuang, Y.-C. Tung, and C.-T. Lin, “Dual Function Microfluidic Pump and Particle Trapper Using Electroosmosis and Dielectrophoresis,” The 17th International Conference on miniaturized Systems for Chemistry and Life Sciences, Freiburg, Germany, Oct. 2013
  54. S.-L. Chung, Y.-Y. Huang, and C.-T. Lin, “An Electrical-Potential Driven Surface Molecular Gradient Technique for Cell Behavior Studies,” The 17th International Conference on miniaturized Systems for Chemistry and Life Sciences, Freiburg, Germany, Oct. 2013
  55. S.-C. Lin, Y.-L. Sung, Y.-C. Tung, and C.-T. Lin, “A Particle Separation Device Based on Circular Travelling-Wave Electroosmosis,” The 17th International Conference on miniaturized Systems for Chemistry and Life Sciences, Freiburg, Germany, Oct. 2013
  56. T.-J. Wu, C.-C. Chen, C.-H. Lee, W.-J. Wu, and C.-T. Lin, “Implementation of N-type All Organic Thin Film Transistor by Ink-Jet Printing Technology,” 2013 International Conference on flexible and Printed Electronics, Jeju, Korea, Sept. 2013
  57. S.-Y. Yang, C.-H. Lee, W.-Y. Chuang, W.-J. Wu, and C.-T. Lin, “An Integrated Humidity Sensor System-on-Chip with Inkjet Printed PEDOT:PSS/AZO Organic Sensing Material,” 2013 International Conference on flexible and Printed Electronics, Jeju, Korea, Sept. 2013
  58. Y.-J. Huang, T.-W. Lin, T.-H. Tzeng, C.-W. Huang, P.-W. Yen, C.-T. Lin and S.-S. Lu, “A Self-Powered CMOS Reconfigurable Multi-Sensor SoC for Biomedical Applications,” 2013 Symposia on VLSI Technology and Circuits, Kyoto, Japan, Jun. 2013
  59. C.-T. Lin, “An Integrated Wireless Biomolecular Sensor System-on-Chip,” Conference on Molecular Biosensors, and Translational Medicine, New Taipei, Taiwan, May 2013
  60. P.-W. Yen, C.-W. Huang, Y.-J. Huang, H.-T. Hsueh, M.-C. Chen, C.-H. Ho, H.-H. Tsai, H.-H. Liao, S.-S. Lu, and C.-T. Lin, “CMOS Based Biomolecular Sensor System-on-Chip,” Symposium on Nano Device Technology, Hsin-Chu, Taiwan, Apr. 2013
  61. C.-H. Lee, W.-Y. Chuang, C.-H. Hsu, S.-B. Liu, W.-J. Wu, and C.-T. Lin, “Graphene Blender Organic Thin Film Transistor Fabricated by All-Inkjet-Printing Technique,” The 12th International Conference on Automation Technology, Tainan, Taiwan, 2013
  62. C.-H. Lee , W.-Y. Chuang, S.-H. Lin, W.-J. Wu, and C.-T. Lin, “The Heterogeneous Sensor System on Chip,” IEEE Asia Pacific Conference on Circuits and Systems, Kaohsiung, Taiwan, Dec. 2012
  63. Y.-L. Tsai, P.-Y. Hsiao, L.-G. Chen, C.-C. Tu, C.-T. Lin, and T.-H. Lin, “A Sensor-Merged Oscillator-Based Front-End Circuit for Pizeoresistive Sensing Application,” IEEE Biomedical Circuits and systems Conference, Hsinchu, Taiwan, Nov. 2012
  64. C.-W. Huang, Y.-J. Huang, P.-W. Yen, H.-T. Hsueh, C.-Y. Lin, M.-C. Chen, C.-H. Ho, F.-L. Yang, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, C.-K. Wang, S.-S. Lu, and C.-T. Lin, “The Implementation of Polysilicon Nanowire based Biomolecular Sensor System-on-Chip,” 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences, Okinawa, Japan, Oct. 2012
  65. H.-T. Hsueh, C.-C. Peng, and C.-T. Lin, “A cTnT Biosensor by Using Nano-Patterned Conductive Molecule CB2C,,” 25th International Microprocesses and Nanotechnology Conference, Kobe, Japan, Oct. 2012
  66. W.-Y. Chuang, S.-H. Lin, C.-H. Lee, W.-J. Wu, and C.-T. Lin,, “An inkjet-printed humidity sensor based on SiO2 Nano particle Blended PEDOT:PSS films,” IEEE Sensors, Taipei, Taiwan, Oct. 2012
  67. S.-L. Chung, Y.-L. Wang, and C.-T. Lin, “The Biomolecular gradient generating and cell patterning divice for cell migration studies,” 38th International Conference on Micro and Nano Egnineering, Toulouse, France, Sept. 2012
  68. C.-H. Tsai, C.-T. Lin, P.-L. Kuo, “Regulation of C2C12 cells migration with dual mechanical cues,” 2012 International Symposium on Microchemistry and Microsystems, Hsinchu, Taiwan, Jun. 2012
  69. M.-C. Chen, C.-H. Lin, C.-Y. Lin, F.-K. Hsueh, W.-H. Huang, Y.-C. Lien, H.-C. Chen, H.-T. Hsueh, C.-W. Huang, C.-T. Lin, Y.-C. Liu, T.-H. Lee, M.-Y. Hua, J.-T. Qui, M.-C. Liu, Y.-J. Lee, J.-M. Shieh, c.-H. Ho, C.-M. Hu, and F.-L. Yang, “Sub fM DNA sensitivity by self-aligned maskless thin-film transistor-based SoC bioelectronics,” 2012 Symposia on VLSI Technology and Cricuits, Hawaii, USA, Jun. 2012
  70. C.-W. Huang, Y.-J. Huang, P.-W. Yen, H.-T. Hsueh., C.-Y. Lin, M.-C. Chen, C.-H. Ho, F.-L. Yang, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, C.-K. Wang, C.-T. Lin, and S.-S. Lu, “A Fully Integrated Hepatitis B Virus DNA Detection SoC based on Monolithic Polysilicon Nanowire CMOS Process,” 2012 Symposia on VLSI Technology and Cricuits, Hawaii, USA, Jun. 2012
  71. C.-W. Huang, H.-T. Hsueh,Y.-J. Huang, J.-K. Lee, M.-C. Chen, S.-S. Lu, and C.-T. Lin, “Low-cost and Ultra-sensitive Poly-Si Nanowire Bio-sensor for Hepatitis B Virus (HBV) DNA Detection,” 2012 IEEE International Symposium on Circuits and Systems, Seoul, Korea, May 2012
  72. C.-W. Huang, H.-T. Hsueh, J.-K. Lee, and C.-T. Lin, “CMOS based biosensor,” Analytix 2012, Beijing, China, Mar. 2012
  73. C.-W. Huang, H.-T. Hsueh, Y.-R. Chang, and C.-T. Lin, “The development of poly-silicon nanowire biosensor devices,” 9th Asian Conference on Chemical Sensors, Taipei, Taiwan, Nov. 2011
  74. C.-W. Huang, Y.-J. Huang, T.-H. Lin, C.-T. Lin, J.-K. Lee, L.-G. Chen, P.-Y. Hsiao, B.-R. Wu, H.-T. Hsueh, B.-J. Kuo, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, and S.-S. Lu., “An Integrated Microcantilever-based Wireless DNA Chip for Hepatitis B Virus (HBV) DNA Detection,” 15th International Conference on Miniaturized Systems for Chemistry and Life Science, Seattle, WA, USA, Oct. 2011
  75. J.-Y. Han, H.-P. Tserng, C.-T. Lin, “Quality Assessment for Lidar Point Cloud Registration Using In-Situ Conjugate Features,” IEEE International Geoscience and Remote Sensing Symposium, Vancouver, Canada, Jul. 2011
  76. Y.-J. Huang, C.-W. Huang, T.-H. Lin, C.-T. Lin, L.-G. Chen, P.-Y. Hsiao, B.-R. Wu, H.-T. Hsueh, B.-Y. Kuo, H.-H. Tsai, H.-H. Liao, Y.-Z. Juang, C.-K. Wang, and S.-S. Lu, “A fully-integrated cantilever based DNA detection SoC in a CMOS Bio-MEMS Process,” 2011 Symposia on VLSI Technology and Cricuits, Kyoto, Japan, Jun. 2011
  77. J.-D. Huang, W.-J. Wu, J.-Y. Han, H.-P. Tserng, and C.-T. Lin, “High efficient synchronization on demand protocol of IEEE 802.15.4 wireless sensor network for construction monitoring,” The 28th International Symposium on Automation and Robotics in Construction, Seoul Korea, Jun. 2011
  78. Y.-C. Shih, J.-H. Lee, C.-T. Lin, C.-S. Chen, K.-C. Wu, “Charge Confinement in Silicon Nanowires by Surface Functionalization,” Nanotech Conference, Boston, MA, USA, Jun. 2011
  79. C.-T. Lin, J.-C. Wang, C.-W. Huang, H.-T. Hsueh, and Y.-J Chang, “CMOS compatible polysilicon nanowire FET for biomolecular sensing,” Japan-Taiwan Joint Workshop on Bioelectronics, ainan, Taiwan, Jan. 2011
  80. S.-K. Hsu, H.-P. Yueh, C.-T. Lin, and Y.-J. Liu, “Exploring concept learning in a wireless sensor networking environment: A Chinese language example,” International Conference on Cognition and Exploratory Learning in Digital Age (CELDA 2010), Timisoara, Romania, Oct. 2010
  81. C.-H. Hsu, C.-H. Li, S.-B.i Liu, C.- H. Chen, S.-H. Lin, C.-T. Lin, and W.-J. Wu, “All-inkjet-printed organic thin film transistors,” International Conference on Flexible and Printed Electronics (ICFPE 2010), Hsinchu, Taiwan,, Oct. 2010
  82. J.-C. Wang, C.-W., Huang, H.-T. Hsueh, Y.-J. Chang, J.-K. Lee, C.-T. Lin, “Enhancement of Polysilicon Nanowire FET Bio-molecule Sensor,” ASME 5th Frontiers in Biomedical Devices Conference, California, U.S.A., Sept. 2010
  83. C.-H. Lin, S.-L. Chung, C.-H. Li, and C.-T. Lin, “The Configurable-Biomolecular Nano Pattern Controlled by Surface Potential,” 36th International Conference on Micro & Nano Engineering, Genoa, Italy, Sept. 2010
  84. Y.-C. Shih, C.-S. Chen, C.-T. Lin, and K.-C. Wu, “Electron Transportation Behavior in Single Crystal Silicon Nanowires,” ASME 2010 First Global Congress on NanoEngineering for Medicine and Biology, Houston, Texas, Feb. 2010
  85. C.-T. Lin, C.-W. Huang, J.-C. Wang, “Poly-Silicon Nanowire FET Chemical Sensor,” Proceedings of ASME 2010 First Global Congress on NanoEngineering for Medicine and Biology, Houston, Texas, Feb. 2010
  86. C.-H. Li, C.-H. Hsu, C.-T. Lin, “Ink-jet Printed P(VDF-TrFE) Ferroelectric Memory,” International Thin Films Conference (TACT 2009), Taipei, Taiwan,, Dec. 2009
  87. T.-C. Ma, C.-H. Lin, C.-T. Lin, C.-S. Chen, “Nanomechanis of biomolecular motor proteins in micro-machined structures,” ISCM II 2009, Hong Kong, Dec. 2009
  88. C.-H. Li, S.-H. Yang, C.-H. Hsu, C.-J. Cheng, C.-T. Lin, W.-J. Wu, “Ferroelectric field-effect-transistor by P(VDF-TrFE) ink-jet printing process,” ICAST 2009, Hong Kong, Oct. 2009
  89. C.-H. Lin, C.-W. Lu, and C.-T. Lin,, “Submicron protein patterning technology based on electrical potential activation,” International Conference on Microtechnologies in Medicine and Biology, Quebec, Canada, 2009
  90. C.W. Huang, S.C. Hsu, C.T. Lin, “Polysilicon Nanowire Chemical Sensor Based on CMOS Standard Process,” IEEE International Conference on Electron Devices and Solid-State Circuit 2008, Hong Kong, Dec. 2008
  91. C. T. Lin, M.-T. Kao, K. Kurabayashi, E. Meyhofer, “High-Fidelity Fabrication of Microfluidic Channels Shapped for On-Chip Self-Accumulation of Microtubules,” Micro Total Analysis System, San Diego, CA, U.S., Oct. 2008
  92. C.H. Hsu, C.H. Lee, S.H. Yang, Y.G. Tsai, W.J. Wu, C.T. Lin, C.K.Lee, “Flexible Pressure Sensing Device Using Blended Nano-Carbon-Black/P3HT Solution Process,” 19th International Conference on Adaptive Structures and Technologies, Monte Verità, Ascona., Zurich, Oct. 2008
  93. C.W. Huang, C.T. Lin, “Humidity Sensing Material Based on Doped Polyaniline,” 19th International Conference on Adaptive Structures and Technologies, Monte Verità, Ascona., Zurich, Oct. 2008
  94. C.-H. Lin and C.-T. Lin, “Nano-Mechanics of Biomolecular Motor Protein in Microfluidic Environment,” ICONBS 2007 conference, Taipei, Taiwan, Dec. 2007
  95. C.-T. Lin, E. Meyhofer, and K. Kurabayashi, “Statistical Model for Biomoelcular Shuttles Gliding in Microfabricated Open Channels,” Micro-TAS 2007 conference, 1012-1015, Paris, France, Oct. 2007
  96. Frost, A., Lin, C.-T., Meyhofer, E., and Kuabayashi, K., “electrically Tunable, Reprogrammable Protein Patterning Using Fluorocarbon Polymer-Coated Electrode Patterns,” International Symposium on Micro Total Analysis system, Malmo, Sweden, Sept. 2004
  97. Kim, T.S., Nanjundaswamy, H.K., Lin, C.-T., Lamkamper S., Cheng L.J., Hoff, D., Hasselbrink, E.F., Guo, L.J., Kurabayashi, K., Hunt, A.J., and Meyhofer E., “Biomolecular Motors as Novel Prime Movers for Micro-TAS: Microfabrication and Materials Issues,” International Symposium on Micro Total Analysis Systems, vol1, pp33-36, Squaw Valley, CA, USA, Oct. 2003
  98. Tung, Y.-C., Lin, C.-T., Kurabayashi, K., Skerlos, S.J.,, “High Fidelity and Low Cost Detection of Multi-Color Fluorescence from Biological Cells in a Micro Integrated Flow Cytometer (MIFC) with Disposable Observation Cell,” International Symposium on Micro Total Analysis Systems, pp3-7, Nara, Japan,, Nov. 2002
  99. Y. H. Hsu, C. K. Lee, W. H. Hsiao, C. T. Lin, H. C. Shih, S. H. Hsu, and H. S. Hsu, “APROPOS Device for Control-Structure Interactions,” Proc. 10th International Conference on Adaptive Structures and Technologies, pp. 45-52, Lancaster, Pennsylvania, USA,, Oct. 1999
  100. C. K. Lee, Y. H. Hsu, C. T. Lin, W. H. Hsiao, H. C. Shih, S. H. Hsu, and H. S. Hsu, “Implementing APROPOS Device as Point Sensors,” Proc. 10th International Conference on Adaptive Structures and Technologies, pp. 53-60, Lancaster, Pennsylvania, USA,, Oct. 1999
  101. C. T. Lin, H. C. Shih, W. H. Hsiao, C. K. Lee, C. T. Teng, C. J. Lin, and G. Y. Wu, “Ultra-Precision System Dynamic Function Measurement by Laser Doppler Interferometer,” the 22nd National Conference on Theoretical and Applied Mechanics, Vol. 2, pp. 113-119, Tainan, Taiwan,, Dec. 1998
  102. C. T. Lin, W. H. Hsiao,C. K. Lee, “Innovative Distributed Piezoelectric Filter Sensors,,” the 15st National Conference on Mechanical Engineering, Vol. Solid Mechanics and Design,, pp. 415-422, Tainan, Taiwan,, Nov. 1998
  103. C. T. Lin, C. K. Lee, and W. C. Liaw,, “An Innovative Piezoelectric Impact Hammer for Precision Structure Testing,” Proceedings of the Eighth International Conference on Adaptive Structures and Technologies, pp. 155-165, Lancaster, Pennsylvania, USA, Oct. 1997
  104. F.-E. Chen, H.-T. Hsueh, P.-H. Chen, M.-S. Tsai, and C.-T. Lin, “Electro-Impedance Sensing by Surface-Potential Effect with Coplanar Nano-Gap Electrodes,” 10th IEEE International Conference on Nano/Molecular Medicine and Engineering (IEEE NanoMed 2016), Macau, China

Patents:

  1. 楊仁宗 , 林稜傑, 李一能, 林致廷, 高佳鴻, 林明瑜, 黃若雯, 盧彥蓓, 葉哲良, “用於檢測脫水的方法及設備,” 中華民國專利I651531號, 2019
  2. J.-T. Yang, L.-C. Lin, I-N. Lee, J.-W. Huang, J.-L. Yeh, M.-Y. Lin, Y.-P. Lu, C.-T. Lin, C.-H. Gao, “Method and apparatus for detecting dehydration,” US 10,299,677, 2019
  3. J.-T. Yang, L.-C. Lin, I-N. Lee, J.-W. Huang, J.-L. Yeh, M.-Y. Lin, Y.-P. Lu, C.-T. Lin, C.-H. Gao, “Method for detecting dehydration,” EP 3,229,021, 2019
  4. 林致廷, 呂學士, 陳又豪, 周聖燁, 王義舜, 黃哲偉, 嚴沛文, “生物感測器裝置,” 中華民國專利I619941號, 2018
  5. 林致廷, 陳又豪, 周聖燁, “生物感測器裝置,” 中華民國專利I635274號, 2018
  6. 岳修平, 林致廷, 劉遠楨 , 徐式寬, “互動學習系統,” 中華民國專利I530923號, 2016
  7. 林詳淇, 嚴沛文, 宋昱龍, 林致廷, “微流體裝置,” 中華民國專利 I 499778號, 2015
  8. 林詳淇, 林致廷, 董奕鐘, 宋昱龍, “具有微電極陣列的微流到元件,” 中華民國專利 I 511790號, 2015
  9. H.-P. Yueh, C.-T. Lin, S.-K. Hsu, J.-Y. Huang, J.-J. Pan, J.-Y. Chen, Y.-L. Chou, “System and method for learning concept map,” US 8,655,260, 2014
  10. 翁紹航, 林晨弘, 陳威廷, 王文昱, 吳挺睿, 王詠文, 林致廷, “電子貼紙及其系統,” 中華民國專利I 444897號, 2014
  11. 岳修平, 林致廷, 徐式寬, 黃若詒, 潘貞君, 陳俊宇, 周彥良, “概念圖學習系統及方法,” 中華民國專利 I 402786號, 2013
  12. 林致廷, 曾惠斌, 韓仁毓, “結構物即時安全監測系統,” 中華民國專利M443724號, 2012
  13. 韓仁毓, 曾惠斌, 林致廷, “變位監測系統,” 中華民國專利 M443725號, 2012
  14. C.-T. Lin, A. Frost, E. Meyhofer, and K. Kurabayashi, C.-Y. Fan,, “Reconfigurable Protein Patterning Using Electrowetting Microelectrodes,” US 07615369, Nov. 2009
  15. C.-K. Lee, C.-T. Lin, S.-S. Lee, C.-H. Tang, “Light Beam Polarization Converter for Converting an Illumination Light Source,” US 6,587,275, Jul. 2003
  16. C. K. Lee, C. T. Lin, W. H. Hsiao, H. C. Shih, “Device and Method for Measuring Vibration,” US 6,510,738, Jan. 2003