Department of Electrical Engineering National Taiwan University

黃念祖 Huang, Nien-Tsu

Professor, Department of Electrical Engineering, National Taiwan University

Ph.D. University of Michigan, 2012
M.S. National Taiwan University , 2005
B.S. National Taiwan University , 2003

Office : MD 522
TEL : +886-2-33661775
Email :
Office Hour : Thu 10:00-12:00
Website : http://homepage.ntu.edu.tw/~nthuang/index.html

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Major Research Areas

Bio-MEMS, Optical-MEMS, Microfluidics, Bio-sensing, Cell Manipulation in Microenvironment, Micro/Nano Fabrication Techniques.

Research Summary

Our lab is focusing on developing integrated electrical, optical and mechanical miniaturized fluidics and sensors for biological applications, such as cellular biology, drug screening, and disease diagnosis. You can find more of our current research projects in our lab website.

黃念祖助理教授於2003年及2005年取得台灣大學機械工程系學士和應用力學所碩士學位，畢業後前往美國密西根大學(University of Michigan, Ann Arbor)取得機械工程學博士學位。黃教授於2013年8月返台，目前擔任台大電機系和生醫電資所合聘教師。黃教授取得博士學位後，於密西根大學及附屬墨茲兒童醫院擔任博士後研究員進行小兒敗血症和器官移植免疫系統的研究。他的研究成果包含設計微小化生醫晶片和搭配之光學系統以達到快速檢測和少量化樣本需求，上述成果獲得美國國衛院(National Institutes of Health)、國科會 (National Science Foundation) 等數項研究計畫補助。同時間他也多次參與知名國際微機電和生醫晶片會議並發表超過15篇生醫微奈米系統期刊和國際會議論文。他亦擔任專書”光微奈米致動器科技”(Optical Nano and Micro Actuator Technology) 章節作者，並擁有數項微流體系統專利待核定中。

Nien-Tsu Huang received his B.S. in Mechanical Engineering and the M.S. in Applied Mechanics from National Taiwan University, Taipei, Taiwan, in 2003 and 2005. He received the Ph. D. degree in Mechanical Engineering at the University of Michigan, Ann Arbor, in 2012. Following a post-doctoral training in the Mechanical Engineering and C.S. Mott Children's Hospital at the University of Michigan, he joined the Graduated Institute of Biomedical Electronics and Bioinformatics and the Department of Electrical Engineering at National Taiwan University in 2013. During his post doctoral training, he developed integrated microfluidic devices and customized optical system for investigating immune system of pediatric sepsis patients. These research results had been published in several prestigious journal and conference paper. Besides, he also got various research grants from National Institutes of Health (NIH) and National Science Foundation (NSF) for developing integrated optofluidic platforms projects.

Journal articles & book chapters Conference & proceeding papers Books Patents

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Journal articles & book chapters

1. Yi-Ming Tseng, Ko-Lun Chen, Po-Hsuan Chao, Yin-Yi Han, Nien-Tsu Huang, “Deep Learning–Assisted Surface-Enhanced Raman Scattering for Rapid Bacterial Identification” , ACS Applied Materials & Interfaces , Vol. 15 , 26398-26406, 2023

2. Xiao-Wen Chen and Nien-Tsu Huang, “Dual Ion-Selective Membrane Deposited Ion-Sensitive Field-Effect Transistor Integrating a Whole Blood Processing Microchamber for In Situ Blood Ion Testing” , ACS Sensors , Vol. 8 (2) , 904-913, 2023

3. Zhi-Xuan Lai, Chia-Chien Wu and Nien-Tsu Huang, “A Microfluidic Platform with an Embedded Miniaturized Electrochemical Sensor for On-Chip Plasma Extraction Followed by In Situ High-Sensitivity C-Reactive Protein (hs-CRP) Detection” , Biosensors , Vol. 12 (12) , 1163-, 2022

4. Shang-Jyun Lin, Po-Hsuan Chao, Ho-Wen Cheng, Juen-Kai Wang, Yuh-Lin Wang, Yin-Yi Han, Nien-Tsu Huang, “An antibiotic concentration gradient microfluidic device integrating surface-enhanced Raman spectroscopy for multiplex antimicrobial susceptibility testing” , Lab on a Chip , Vol. 22 , 1805-1814, 2022

5. Chia-Yu Hsieh and Nien-Tsu Huang, “A proton-selective membrane (PSM)-deposited dual-gate ion-sensitive field-effect transistor (DG-ISFET) integrating a microchamber-embedded filter membrane for bacterial enrichment and antimicrobial susceptibility test” , Sensors and Actuators B: chemical , Vol. 359 , 131580-, 2022

6. Cheng-Chieh Liao, Yi-Zih Chen, Shang-Jyun Lin, Ho-Wen Cheng, Juen-Kai Wang, Yuh-Lin Wang, Yi-Yin Han, Nien-Tsu Huang, “A microfluidic microwell device operated by the automated microfluidic control system for surface-enhanced Raman scattering-based antimicrobial susceptibility testing” , Biosensors and Bioelectronics , Vol. 2021 , 113483-, 2021

7. Yi-Hsin Tai, Shu-Cheng Lo, Kevin Montagne, Po-Cheng Tsai, Cheng-Chieh Liao, Sheng-Hann Wang, Iuan-Sheau Chin, Di Xing, Ya-Lun Ho, Nien-Tsu Huang, Pei-Kuen Wei, Jean-Jacques Delaunay, “Enhancing Raman signals from bacteria using dielectrophoretic force between conductive lensed fiber and black silicon” , Biosensors and Bioelectronics , Vol. 19 , 113463-, 2021

8. Yang, C.-H.; Wu, T.-H.; Chang, C.-C.; Lo, H.-Y.; Liu, H.-W.; Huang, N.-T.; Lin, C.-W., “Biosensing Amplification by Hybridization Chain Reaction on Phase-Sensitive Surface Plasmon Resonance.” , Biosensors 2021 , Vol. 11 , 75-, 2021

9. Hsiu-Kang Huang, Ho-Wen Cheng, Cheng-Chieh Liao, Shang-Jyun Lin, Yi-Zih Chen, Juen-Kai Wang, Yuh-Lin Wang, Nien-Tsu Huang, “Bacteria Encapsulation and Rapid Antibiotic Susceptibility Test Using a Microfluidic Microwell Device Integrating Surface-enhanced Raman Scattering” , Lab on a Chip , Vol. 20 , 2520-2528, Jun. 2020

10. Da-Han Kuan, and Nien-Tsu Huang, “Recent advancements in microfluidics that integrate electrical sensors for whole blood analysis” , Analytical Methods , Vol. 12 , 3318-3332, Jun. 2020

11. Jhih-Siang Chen, Pin-Fan Chen, Hana Tzu-Han Lin, and Nien-Tsu Huang, “A Localized Surface Plasmon Resonance (LSPR) sensor integrated automated microfluidic system for multiplex inflammatory biomarker detection” , Analyst , Vol. 145 , 7654-7661, Aug. 2020

12. Chen, Y.-T.; Lee, Y.-C.; Lai, Y.-H.; Lim, J.-C.; Huang, N.-T.; Lin, C.-T.; Huang, J.-J., “Review of Integrated Optical Biosensors for Point-Of-Care Applications.” , Biosensors 2020 , Vol. 10 , 209-, 2020

13. Sheng-Han Chu, Li-Lun Lo, Richard Lee Lai, T. Tony Yang, Rueyhung Roc Weng, Jung-Chi Liao, and Nien-Tsu Huang, “A microfluidic device for in situ fixation and super-resolved mechanosensation studies of primary cilia” , Biomicrofluidics , Vol. 13 , 014105-, 2019

14. Yi-Ying Wang, Ho-Wen Cheng, Kai-Wei Chang, Jessie Shiue, Juen-Kai Wang, Yuh-Lin Wang, and Nien-Tsu Huang, “A particle-based microfluidic molecular separation integrating surface-enhanced Raman scattering sensing for purine derivatives analysis” , Microfluidics and Nanofluidics , Vol. 2019 , 23:48-, 2019

15. Kai-Wei Chang, Ho-Wen Cheng, Jessie Shiue, Juen-Kai Wang, Yuh-Lin Wang, Nien-Tsu Huang, “Antibiotic Susceptibility Test with Surface-Enhanced Raman Scattering in a Microfluidic System” , Analytical Chemistry , Vol. 91 , 10988-10995, 2019

16. Richard Lee Lai, and Nien-Tsu Huang, “Dimensional analysis and parametric studies of the microwell for particle trapping” , Microfluidics and Nanofluidics , Vol. 23:121 , 2019

17. N.-T. Huang*, Y. J. Hwong, R. L. Lai, “A microfluidic microwell device for immunomagnetic single-cell trapping” , Microfluidics and Nanofluidics , Vol. 22 , 16-, 2018

18. S.-H. Huang, Y.-S. Chang, J.-M. J. Juang, K.-W. Chang, M.-H. Tsai, T.-P. Lu, L.-C. Lai, E. Y. Chuang, and N.-T. Huang, “An Automated Microfluidic DNA Microarray Platform for Genetic Variants Detection in Inherited Arrhythmic Diseases” , Analyst , Vol. 143 , 1367-1377, Mar. 2018

19. Da-Han Kuan, Chia-Chien Wu, Wei-Yu Su, and Nien-Tsu Huang, “A Microfluidic Device for simultaneous Extraction of Plasma, Red Blood Cells and on-chip White Blood Cell Trapping” , Scientific Reports , Vol. 8 , 15345-, Oct. 2018

20. H. T.-H. Lin, C.-K. Yang, C.-C. Lin, A. M.-H. Wu, L. A. Wang, and N.-T. Huang, “A Large-Area Nanoplasmonic Sensor Fabricated by Rapid Thermal Annealing Treatment for Label-Free and Multi-Point Immunoglobulin Sensing” , Nanomaterials , Vol. 7(5) , 100-, May 2017

21. 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 , Vol. 17(12) , 2733-, Nov. 2017

22. Y. C. Wu, N. Lee, Y.K. Tu, C.P. Huang, N. T. Huang, Y.F. Chen, P.C. Chang, “ “Salivary biomarker combination prediction model for the diagnosis of periodontitis in a Taiwanese population” , J. Formos. Med. Assoc. , Vol. 117(9) , 841-848, Nov. 2017

23. 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 analytes” , Lab on a Chip , Vol. 16 , 3105-3113, Aug. 2016

24. P. Chen, N.-T. Huang, M.-T. Chung, T. T. Cornell, and K Kurabayashi, “Label-free cytokine micro- and nano-biosensing towards personalized medicine of systemic inflammatory disorders” , Advanced Drug Delivery Reviews , Vol. 95 , 90-103, Dec. 2015

25. 1. A. B. Simon, J. P. Frampton, N. -T. Huang, S. Paczesny, K. Kurabayashi, S. Takayama,, “Aqueous two-phase systems enable multiplexing of homogeneous immunoassays” , TECHNOLOGY , Vol. 2 , 176-184, Jun. 2014

26. N.–T. Huang, H. Zhang, M. –T. Chung, J. H. Seo, and K. Kurabayashi, “Recent Advancements in Optofluidics-Based Single-cell Analysis: Fully Optical On-Chip Cellular Manipulation, Treatment, and Property Detection” , Lab on a Chip , Vol. 14 , 1230-1245-, Mar. 2014

27. B.-R. Oh, N.-T. Huang, W. Chen, J. Seo, P. Chen, T. T. Cornell, T. P. Shanley, J. Fu, and K. Kurabayashi, “Integrated Nanoplasmonic Sensing for Cellular Functional Immunoanalysis Using Human Blood” , ACS Nano , Vol. 8 , 2667-2676, Feb. 2014

28. W. Chen*, N. -T. Huang*, B. -R. Oh, R. H. W. Lam, R. Fan, T. T. Cornell, T. P. Shanley, K. Kurabayashi, and J. Fu, “Surface-micromachined microfiltration membranes for efficient isolation and functional immunophenotyping of subpopulations of immune cells” , Advanced Healthcare Materials , Vol. 2(7) , 965-975-, Jul. 2013

29. W. Chen*, N.-T. Huang*, X. Li, Z. Yu, K. Kurabayashi, and J. Fu, “Emerging Microfluidic Tools for Functional Immunophenotyping: A New Potential Paradigm for Immune Status Characterization” , Frontiers in Oncology , Vol. 3 , 98-, Apr. 2013

30. N. -T. Huang*, W. Chen*, B. -R. Oh, T. T. Cornell, T. P. Shanley, J. Fu, and K. Kurabayashi, “An integrated microfluidic platform for in-situ cellular cytokine secretion immunophenotyping” , Lab on a Chip , Vol. 12 , 4093-4101-, Jul. 2012

31. Y. -C. Tung, N. -T. Huang, B. -R. Oh, B. Patra, C. -C. Pan, T. Qiu, P. K. Chu, W. Zhang, and K. Kurabayashi, “Optofluidic detection for cellular phenotyping” , Lab on a Chip , Vol. 12 , 3552-3565-, Jun. 2012

32. N. -T. Huang, S. C. Truxal, Y. -C. Tung, A. Y. Hsiao, G. D. Luker, S. Takayama, and K. Kurabayashi, “Multiplexed spectral signature detection for microfluidic color-coded bioparticle flow” , Analytical Chemistry , Vol. 82 , 9506-9512-, Oct. 2010

33. N. -T. Huang, S. C. Truxal, Y. -C. Tung, A. Hsiao, S. Takayama, and K. Kurabayashi, “High-Speed Tuning of Visible Laser Wavelength Using a Nanoimprinted Grating Optical Tunable Filter” , Applied Physics Letters , Vol. 95 , 21106-, Nov. 2009

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Conference & proceeding papers:

1. Chi-Yao Ku, Nien-Tsu Huang, “Integration of air-Liquid microfluidics Integrating Sers Substrate for Bacteria Identification Based on Adsorptive Separation” , IEEE NEMS 2024 , Kyoto, Japan , May 2024

2. Ming-Chun Lin, Nien-Tsu Huang, “Integration of Free Flow Electrophoresis and Surface-Enhanced Raman Scattering for Multiplex Biomolecule Analysis” , IEEE NEMS 2024 , Kyoto, Japan , May 2024

3. Yen-An Chen, Nien-Tsu Huang, “A Microfluidic Platform Integrating Electrochemical Sensors for on-Chip Whole Blood Processing and in-situ Dual Cardiac Vascular Disease Biomarker Detection” , IEEE NEMS 2024 , Kyoto, Japan , May 2024

4. Syuan-Rong Huang, Nien-Tsu Huang, “Aptamer-functionalized Extended Gate Field-Effect Transistor (EGFET) Integrating Whole-Blood Processing Microfluidics for Troponin I Detection” , IEEE NEMS 2024 , Kyoto, Japan , May 2024

5. Tzu-Yu Liu, Nien-Tsu Huang, “Ion Selective Membrane with Dual-Gate Ion-Sensitive Field-Effect Transistor Integrating the Microfluidic Channel for Heavy Metal Ions Test in Wastewater” , IEEE NEMS 2024 , Kyoto, Japan , May 2024

6. Kuan-Chun Yeh, Hsiang-Yu Wang, Nien-Tsu Huang, “The Anodic Aluminum Oxide Templates and Etching-Based Rapid Thermal Annealing for Fabricating Localized Surface Plasmon Resonance Sensors Integrating Micro-Channel for C-Reactive Protein Detection” , IEEE NEMS 2024 , Kyoto, Japan , May 2024

7. Chia-Pei Wang, Kuang-Hsing Chiang, Nien-Tsu Huang, “A Microfluidic Platform for Collective Endothelial Cell Migration Assay Under Glucose Gradient and Cyclic Hypoxia Stimuli” , IEEE NEMS 2024 , Kyoto, Japan , May 2024

8. Po-Hsuan Chao, Nien-Tsu Huang, “Deep Learning-assist Single-bacterium distinguishment in Microwell Array” , µTAS 2024 , Montreal, Canada , Oct. 2024

9. Xiao-Wen Chen, Syuan-Rong Huang, and Nien-Tsu Huang, “Dual Ion-Selective Membrane Deposited Ion-Sensitive Field-Effect Transistor (DISM-ISFET) integrating Whole Blood Processing Microchamber for in situ Blood Ion Testing” , 2023 IEEE 36rd International Conference on Micro Electro Mechanical Systems (MEMS) , Munich, Germany , Jan. 2023

10. Chia-Chin Hsieh and Nien-Tsu Huang, “The anodic aluminum oxide (AAO) template fabricated Localized Surface Plasmon Resonance (LSPR) sensor for the plasmonic coupling effect study” , IEEE NEMS 2023 , Jeju, Korea , May 2023

11. Po-Hsuan Chao and Nien-Tsu Huang, “The Microfluidic Microwell array integrAting Surface Enhanced raman scattering (SERS) Platform assisted with Machine Learning for Bacteria strain identification” , Transducers 2023 , Kyoto, Japan , Jun. 2023

12. Min-Yen Hsin, and Yen-Chen Hsiung, Kuang-Hsing Chiang, and Nien-Tsu Huang, “A Microfluidic Device to Simultaneously Generate Shear Stress and Hypoxia Conditions to Study Endotheilial Cell Morphology and Reactive Oxygen Species Behavior” , µTAS 2023 , Katowice, Poland , Oct. 2023

13. Yu-Tung Yeh, and Nien-Tsu Huang, “A Microfluidic Combinatory Antibiotic Concentration Gradient Generator Integrating Surface Enhanced Raman Spectroscopy For Multiparallel Antimicrobial Susceptibility Testing” , µTAS 2023 , Katowice, Poland , Oct. 2023

14. Shang-Jyun Lin, Po-Hsuan Chao, Nien-Tsu Huang, “A microfluidic antibiotic concentration gradient generator integrating surface-enhanced Raman spectroscopy for multiparallel antimicrobial susceptibility testing” , µTAS 2021 , Palm Springs, USA , Oct. 2021

15. Zhi-Xuan Lai, and Nien-Tsu Huang, “A microfluidic platform for undiluted plasma separation and electrochemical detection of C-reactive protein” , µTAS 2021 , Palm Springs, USA , Oct. 2021

16. C. Liao, H. Huang, Y. Chen and N. Huang, “The Microfluidic Microwell Device Integrating Surface Enhanced Raman Scattering for Bacteria Enrichment and in Situ Antibiotic Susceptibility Test” , 2020 IEEE 33rd International Conference on Micro Electro Mechanical Systems (MEMS) , Vancouver, BC, Canada , Jan. 2020

17. Zhi-Xuan Lai and Nien-Tsu Huang, “An Electrochemical Impedance Spectroscopy Biosensor Embedded Microfluidics for Whole Blood Processing and Biomarkers Detection” , ICSS conference , Kaohsiung, Taiwan , Oct. 2020

18. Shang-Jyun Lin, Cheng-Chieh Liao, Yi-Zih Chen and Nien-Tsu Huang, “An Automatic Medium Exchanging Microwell Microfluidic Device for SERS-based Antibiotics Susceptibility Test” , ICSS conference , Kaohsiung, Taiwan , Oct. 2020

19. Pin-Fan. Chen, and Nien-Tsu Huang, “Nanoplasmonic Sensor Fabricated by Electron Beam Lithography Integrated with Automated Microfluidic System for Biomolecule Detection” , ICSS conference , Kaohsiung, Taiwan , Oct. 2020

20. Y.H. Huang, C.Y. Hsieh and Nien-Tsu Huang, “A Reference Electrode Embedded in Dual-gated Ion-Sensitive Field-Effect Transistor for Antibiotic Susceptibility Test” , ICSS conference , Kaohsiung, Taiwan , Oct. 2020

21. C.-C. Lin, J.-S. Chen, C.-L. Wu, L. A. Wang, N.-T. Huang, “A Nanodisk Array Based Localized Surface Plasmon Resonance (LSPR) Sensor Fabricated by Laser Interference Lithography” , IEEE NEMS 2019 , Bangkok, Thailand , Apr. 2019

22. Hsiu-Kang Huang, Nien-Tsu Huang, “A Microfluidic Microwell Device Integrating Surface-enhanced Raman Scattering for Rapid Antibiotic Susceptibility Test of Blood-Borne Pathogen” , IEEE NEMS 2019 , Bangkok, Thailand , Apr. 2019

23. Sheng-Han Chu, and Nien-Tsu Huang, “Determining mechanical stimulation responses of primary cilia with an integrated microfluidic platform” , µTAS 2019 , Basel, Switzerland , Oct. 2019

24. Kai-Wei Chang, and Nien-Tsu Huang, “A Microfluidic System Integrating Membrane Filtration and Surface-Enhanced Raman Scattering for Rapid Antibiotic Susceptibility test” , µTAS 2019 , Basel, Switzerland , Oct. 2019

25. Yi-Ying Wang, Ho-Wen Cheng, Kai-Wei Chang, Juen-Kai Wang, Yuh-Lin Wang, Nien-Tsu Huang, “A Microfluidic System Combining Liquid Chromatography and Surface-enhanced Raman Scattering for Molecular Detection” , IEEE NEMS 2018 , Singapore , Apr. 2018

26. C.-C. Lin, J.-F. Luo, L. A. Wang, and N.-T. Huang, “A Nanoplasmonic Sensor Fabricated by Laser Interference Lithography (LIL) for Immunoglobulin Detection” , CLEO: Applications and Technology 2018 , May 2018

27. Kai-Wei Chang, Ho-Wen Cheng, Jessie Shiue, Juen-Kai Wang, Yuh-Lin Wang, and Nien-Tsu Huang, “Rapid bacterial detection using a microfluidic system integrating membrane filtration and surface-enhanced Raman scattering” , µTAS 2018 , Kaohsiung, Taiwan , Nov. 2018

28. Hana Tzu-Han Lin, Jhih-Siang Chen, and Nien-Tsu Huang, “An automated microfluidic platform integrating dual-mode microchannel and localized surface plasmon resonance sensing for multi-parallel biomolecule detection” , µTAS 2018 , Kaohsiung, Taiwan , Nov. 2018

29. Sheng-Han Chu, Li-Lun Lo, Richard Lee Lai, T. Tony Yang, Jung-Chi Liao and Nien-Tsu Huang, “Determining mechanical stimulation responses of primary cilia with an integrated microfluidic platform” , µTAS 2018 , Kaohsiung, Taiwan , Nov. 2018

30. Yu-Hao Huang, Yu-Hao Chang, Da-Han Kuan, Jui-Cheng Huang, Yu-Jie Huang, Chih-Ting Lin and Nien-Tsu Huang, “A microfluidic whole blood processing platform integrating ion-sensitive field-effect transistor sensor for glycated hemoglobin detection” , µTAS 2018 , Kaohsiung, Taiwan , Nov. 2018

31. Chia-Chien Wu, Da-Han Kuan, Wei-Yu Su, and Nien-Tsu Huang, “A Microfluidic Device for Simultaneous Extraction of Plasma, Red Blood Cells and On-Chip White Blood Cells Trapping” , µTAS 2018 , Kaohsiung, Taiwan , Nov. 2018

32. Da-Han Kuan, Chia-Chien Wu, Ting-Wei Lin, Chih-Ting Lin, and Nien-Tsu Huang, “A microfluidic platform for whole blood collection and on-chip plasma extraction” , µTAS 2018 , Kaohsiung, Taiwan , Nov. 2018

33. H. T.-H. Lin, C.-C. Lin, and N.-T. Huang, “Localized surface plasmon resonance platform for multi-point and real-time biosensing” , CLEO: Applications and Technology 2017 , May 2017

34. Yuh-Jen Hwong, Nien-Tsu Huang, “A microfluidic device with hydrodynamic trap arrays for white blood cell counting in peritoneal dialysis solution” , 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC’17) , Jeju Island, Korea , Jul. 2017

35. Yuh-Jen Hwong, Richard Lee Lai, and Nien-Tsu Huang, “A Microfluidic Device Integrating Microwell with a Permanent Magnet for Immunomagnetic Single Cell Trapping” , µTAS 2017 , Savannah, Georgia , Oct. 2017

36. Shu-Hong Huang, Yu-Shin Chang, Kai-Wei Chang, Mong-Hsun Tsai, Nien-Tsu Huang, “An Automatic Microfluidic DNA Microarray Platform for SNP Detection Using a DNA Intercalating Dye and Graphene Oxide” , µTAS 2017 , Savannah, Georgia , Oct. 2017

37. Da-Han Kuan, I-Shun Wang, Chih-Ting Lin, Nien-Tsu Huang, “A microfluidic device integrating dual CMOS polysilicon nanowire sensors for on-chip whole blood processing and the simultaneous detection of multiple analytes” , µTAS 2016 , Dublin, Ireland , Oct. 2016

38. W. H. Jheng, L. A. Wang and N. T. Huang, “Large quantity optical fiber probes fabrication intended for surface plasmon resonance applications” , 2015 International Conference on Optical MEMS and Nanophotonics (OMN) , Jerusalem, Israel , Aug. 2015

39. Da-Han Kuan, I-Shun Wang, Chih-Ting Lin, Nien-Tsu Huang, “A MULTI-FUNCTIONAL MICROFLUIDIC PLATFORM INTEGRATED WITH DUAL CMOS POLYSILICON NANOWIRE SENSOR FOR SIMULTANEOUS HEMOGLOBIN AND GLYCATED HEMOGLOBIN DETCTION” , μTAS 2015 , Gyeongju, Korea , Oct. 2015

40. Yu-Shin Chang, Frank Shyu, Kai-Wei Chang, Mon-Hsun Tsai, Nien-Tsu Huang, “Point Mutation Detection by Microfluidic DNA Microarray for Long QT Syndrome” , Optofluidics 2015 , Taipei, Taiwan , Jul. 2015

41. Sheng Yang, Chao-Han Yang, Nien-Tsu Huang, “Developing multiple microfiltration membranes microfluidics for monitoring early-stage inflammation of peritoneal dialysis patients” , Optofluidics 2015 , Taipei, Taiwan , Jul. 2015

42. Po-Yen Lu, Che-Pin Chang, Nien-Tsu Huang, “Developing integrated optofluidic platform for cellular immunophenotyping” , Optofluidics 2015 , Taipei, Taiwan , Jul. 2015

43. Yeu-Farn Shih, Nien-Tsu Huang, Chih-Kung Lee, “Capturing CD4 cells using a functionalized circular microfluidic device and glutaraldehyde as biolinker for tuberculosis detection and diagnosis” , SPIE Phonics West , San Francisco, USA , Feb. 2015

44. Weiqiang Chen, Nien-Tsu Huang, Bo-Ram Oh, Timothy T. Cornell, Thomas P. Shanley, Katsuo Kurabayashi, and Jianping Fu, “Microfluidic immunophenotyping assay platform for immunomonitoring of subpopulations of immune cells” , Proc. 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (μTAS 2013) , Freiburg, Germany , Oct. 2013

45. Bo-Ram Oh, Nien-Tsu Huang, Weiqiang Chen, Jungwhan Seo, Jianping Fu, and Katsuo Kurabayashi, “Localized surface plasmon resonance (LSPR) optofluidic biosensor for label-free cellular immunophenotyping” , Proc. 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (μTAS 2013) , Freiburg, Germany , Oct. 2013

46. N. -T. Huang, W. Chen, B. -R. Oh, J. Fu, and K. Kurabayashi, “An integrated microfluidic platform for in-situ cellular cytokine secretion immunophenotyping” , The 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences 2012 , Okinawa, Japan , Nov. 2012

47. W. Chen, N. -T. Huang, K. Kurabayashi, and J. Fu, “Surface Micromaching Polydimethylsiloxane(PDMS) for Microfluidic Biomedical Application” , The 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences 2012 , Okinawa, Japan , Nov. 2012

48. N. -T. Huang, S. Truxal, Y. -C. Tung, and K. Kurabayashi, “Multi-Spectral Tunable Excitation Fluorescence Microscopy with a Nanoimprinted PDMS-on-Silicon Grating Optical Filter” , The 25th International Conference on Micro Electro Mechanical Systems IEEE MEMS 2012 , Paris, France , Jan. 2012

49. S. C. Truxal, N. -T. Huang and K. Kurabayashi, “A Nano Grating Tunable MEMS Optical Filter for High-Speed On-Chip Multispectral Fluorescent Detection” , Proc. the 31st Annual International Conference of IEEE Engineering in Medicine and Biology Society , Minneapolis, MN , Sep. 2009

50. W. -L. Hsu, S. -S. Lee, N. -T. Huang, Y. -W. Chen, Y. -W. Chan, C. -K. Lee, W. -R. Lai, and Y.- H. Chen, “Ellipsometer Surface Plasma Resonance” , 2005 International Conference on Mechatronics (ICM 2005) , Taipei, Taiwan , Jul. 2005

51. S. -S. Lee, W. -L. Hsu, N. -T. Huang, C. -K. Lee, “Opto-BioMorphin: Multifunctional Opto-electronic Biochip Systems” , AOI Forum & Exhibition , Hsinchu, Taiwan , Oct. 2004

52. J. -W. Huang, N. -T. Huang, D. -L. Yang, S. -N. Chen, Y. -W. Chen, and C. -K. Lee, “A Design of Reflective F-θ Lens” , Proceedings of 2nd Asian & Pacific Rim Symposium on BioPhotonics 2004 (APBP 2004) , Taipei, Taiwan , Dec. 2004

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Books:

1. K. Kurabayashi, N. -T. Huang, and Y.-C. Tung, “Optical Nano and Micro Actuator Technology, Chapter 16: Multiscale, Hierarchical Integration of Soft Polymer Micro- and Nano Structures into Optical MEMS” , CRC press , 9781439840535 , 639 , USA, Nov. 2012

2. S. -S. Lee, N. -T. Huang, Y. -W. Chen, C. -H. Lee and C. -K. Lee, “Micro Electro Mechanical Systems Technology & Applications, Chapter 11-1~11-4: Scanning Technology” , National Science Council, Instrument Technology Research Center , p. 843-850 , 2003

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Patents:

1. Yeaun Jau Liou, Nien-Tsu Huang, “Multi-Channel Microfluidic Device and Method for Using the Same” , U.S. patent (US20190091684A1), 2020

2. S. Takayama, A. Simon, N. -T. Huang and K. Kurabayashi, “Solution Microarrays and uses thereof” , U.S. patent (US8969256 B2), 2015

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