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陳嘉元

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副教授
姓名 陳嘉元 (Chia-Yuan Chen)
組別 熱流科學與能源組
教授室 機械系館五樓91513
分機 62169
傳真機
電子信箱 chiayuac@mail.ncku.edu.tw
個人網站
學歷
  1. Ph.D., Biomedical Engineering, Carnegie Mellon University, USA, 2012.
  2. M.S., Mechanical Engineering, National Tsing Hua University, Taiwan, 2005.
  3. B.S., Mechanical Engineering, National Chung Cheng University, Taiwan, 2003.
  4. Kaohsiung Municipal Kaohsiung Senior High School, Taiwan, 1999.
經歷
  1. Associate Professor, Department of Mechanical Engineering, National Cheng Kung University, Taiwan. (Feb. 2016 - present)
  2. Assistant Professor, Department of Mechanical Engineering, National Cheng Kung University, Taiwan. (Feb. 2014 - Jan.2016)
  3. Assistant Professor, Department of Mechanical Engineering, National Taiwan University of Science and Technology, Taiwan. (Aug. 2012 - Jan. 2014)
  4. Senior Lithography Process Engineer, UMC, Hsinchu Science Park, Taiwan. (Mar. 2007 - Nov. 2008)
  5. Corporal of Military Police, Army of R. O. C., Taiwan. (Oct. 2005 - Jan. 2007)
專長
  1. 生醫微機電 (BioMEMs)
  2. 微系統製造技術 (Microfabrication)
  3. 心血管疾病血液動力學分析 (Hemodynamic Analysis for Cardiovascular Diseases)
  4. 流場可視化 (Flow Visualization)
教師研究介紹
服務

TSMC-NCKU Research Center (台積電-成大產學合作計畫)

Link to center

IEEE MEMS 2018 Executive Technical Program Committee

Link to committee

Journal Reviewer (SCI):

Lab on a Chip (5-year IF = 6.00, x3); Scientific Reports (5-year IF = 5.60); Talanta (5-year IF = 3.76, x2); Biomicrofluidics (5-year IF = 3.46); Experimental Thermal and FLuid Science (5-year IF = 3.08); Microfluidics and Nanofluidics (5-year IF = 3.03, x7); Biomedical Microdevices (5-year IF = 2.77); Expert Review of Medical devices (5-year IF = 2.37); Sensors & Actuators: A. Physical (5-year IF = 2.14, x2); Journal of Biomechanical Engineering-Transactions of the ASME (5-year IF = 2.13); Micromachines (5-year IF = 1.92, x5); Jove-Journal of VIsualized Experiments (5-year IF = 1.66, x3); Computer Methods in Biomechanics and Biomedical Engineering (5-year IF = 1.75); Measurement ( 5-year IF = 1.34); Journal of Vacuum Science & Technology B (5-year IF = 1.28); SpringerPlus (5-year IF = 0.95); International Journal of Computational Methods (5-year IF = 0.90); Journal of Mechanics (5-year IF = 0.38, x3); Journal of the Chinese Institute of Engineers (5-year IF = 0.21).

PhD Students:

Class of 2019 - Bivas Panigrahi.

Class of 2020 - Karthick Mani

MS Students:

Class of 2014 - 林承毅 (台積電檢測工程師), 胡雅婷 (友達製程設備工程師), 林星宏 (台達電機構工程師-熱管理相關),  

劉冠廷 (核能所研發替代役).

Class of 2015 - 程林瀅 (台積電與鴻海研發替代役).

Class of 2016 - 蔡翔宇, 張簡琮淳(聯電研發替代役), 徐俊傑(中華汽車品保工程師), 劉彥亨.

Class of 2017 - 吳祐安, 黃品宜, 許玟棠.

Class of 2018 - 謝侑哲, 呂宗益, Saurabh Hajari, Neha Ghayal, 呂昌鴻

Class of 2019 - 郭泓毅, 吳允開, 吳建晉, 杜秉修

 

榮譽

As a Principal Investigator (individual)

a. Outstanding Young Engineering Professor Award, Chinese Society of Mechanical Engineers, Taiwan, 2016. (民國105中國機械工程學會優秀青年工程教授獎) 

b. Outstanding Young Scholar Award, Ministry of Science and Technology, Taiwan, 2016. (民國105年行政院科技部優秀年輕學者獎勵, 三年期獎助)

c. Rising Star Award, College of Engineering, National Cheng Kung University, Taiwan, 2016. (2016國立成功大學工學院明日之星研究獎助)

d. Excellence in Research, Department of Mechanical Engineering, National Cheng Kung University, Taiwan, 2015. (2015國立成功大學機械系研究績優教師)

e. Award for Publications in High Impact Journals, Department of Mechanical Engineering, National Cheng Kung University, Taiwan, 2015. (2015國立成功大學機械系高影響期刊論文發表獎勵)

f. 2014 JMBE (IF = 1.08, SCI) Excellent Annual Paper Award (2014 JMBE年度優良論文)

g. Young Scholar Award, Taiwan Comprehensive University System, Taiwan, 2014. (2014台灣綜合大學系統"年輕學者創新研究選拔" 佳作獎)

h. High Ranking Paper Award, National Cheng Kung University, Taiwan, 2014. (2014國立成功大學高排名期刊獎勵, 發表論文於該領域前5-10%期刊)

i. Outstanding Young Scholar Award, National Science Council, Taiwan, 2013. (民國102年行政院國家科學委員會優秀年輕學者獎勵, 三年期獎助)

j. Excellence in Research, Department of Mechanical Engineering, National Taiwan University of Science and Technology, Taiwan, 2013. (2013國立台灣科技大學機械系研究績優)

k. Excellence in Teaching, Department of Mechanical Engineering, National Taiwan University of Science and Technology, Taiwan, 2013. (2013國立台灣科技大學機械系教學績優)

l. High Ranking Paper Award, National Taiwan University of Science and Technology, Taiwan, 2013. (2013國立台灣科技大學高排名期刊獎勵, 發表論文於該領域前15%期刊, 2次*)

m. Newly-Appointed NSC Research Fellow Award, National Science Council, Taiwan, 2012. (民國101年行政院國家科學委員會補助大專校院延攬特殊優秀人才獎勵, NSC 101-2811-E-011-601)

As a Principal Investigator (with students)

a. CTCI Foundation Scholarship for OVersea Graduate Students in Taiwan-Additional Application for Lift Grants, Taiwan, 2017. (指導學生Bivas Panigrahi獲得財團法人中技社境外生生活助學金)

b. The Outstanding Award, Microfabcriation Competition, Taiwan, 2016. (指導學生蔡翔宇與徐俊傑於全國微細競賽獲佳作獎)

c. The Distinct Award, National Student Project Contest for Microfluidic Applications, Taiwan, 2015. (指導學生蔡翔宇, 吳祐安, 徐俊傑與陳兆陽於全國大專院校微流體應用學生專題實作競賽獲優等獎)

d. Best Podium Oral Presentation Award, 19th Nano Engineering and Microsystem Technology Conference, Taiwan, 2015. (指導碩士生徐俊傑 於第十九屆奈米工程暨微系統技術研討會獲得口頭報告特優獎)

e. The Outstanding Award, TSMC-NCKU Project Competition for Undergraduates, Taiwan, 2015. (指導大學生楊育璿獲得2015台積電四校聯合專題競賽佳作與專題最佳人氣獎)

f. The Second Prize in 2015 Best Undergraduate Paper Competition, Chinese Institute of Engineers, Taiwan. (指導大學生楊育璿獲得104中國工程師學會大專論文競賽機械組第二名)

g. Nominations for Best Conferece Paper Award and Best Student Paper Award, IEEE NEMS 2015, China. (指導碩士生張簡琮淳, Karthick Mani 於2015 IEEE 奈微米工程與分子系統最佳會議論文與最佳學生論文提名, only 10 finalists were selected)

h. Outstanding Poster Entry for Gallery Of Fluid Motion, 2013 20th National Computational Fluid Dynamics Conference, Taiwan. (指導碩士生胡雅婷, 林承毅於第二十屆全國計算流體力學研討會流體之力與美海報展示獲獎, 參展17件取入選獎4件)

i. Student Paper Competition Finalist, 2013 20th National Computational Fluid Dynamics Conference, Taiwan. (指導碩士生胡雅婷第二十屆全國計算流體力學研討會最佳論文競賽獲最後五人決選入選獎, 參展30件取入選獎5件)

j. The Best Poster Award, 2012 MRS-T Annual Meeting, Taiwan. (指導碩士生胡雅婷, 林承毅於2012材料年會海報論文獲優等獎, 參展48件取優等獎1件)

專利

1. 陳嘉元, 林承毅, "一種製造可進行三維流場混合之磁性人工纖毛的方法," ROC: 102136574 , USA: 14/093,536.

著作

Selected 7 publications within last 5 years

 

1

Chen, C.-Y., Chen, C.-Y., Lin, C.-Y., and Hu, Y.-T., 2013, “Magnetically actuated artificial cilia for optimum mixing performance in microfluidics,” Lab on a Chip, Vol. 13, pp. 2834-2839 (SCI, 5-year-IF = 6.14, 6/75, 8.00%, Biochemical Research Methods).

6/75

(journal ranking)

2

Chen, C.-Y., Lin, C.-Y., and Hu, Y.-T., 2014, "Inducing 3D vortical flow patterns with 2D asymmetric actuation of artificial cilia for high-performance active micromixing," Experiments in Fluids, Vol. 55, pp. 1765 (SCI, 5-year-IF = 2.22, 24/126, 19.0%, Engineering, Mechanical).

24/126

3

Chen, C.-Y., Lin, C.-Y., Hu, Y.-T., Cheng, L.-Y., and Hsu, C.-C., 2015, "Efficient micromixing through artificial cilia actuation with fish-schooling configuration," Chemical Engineering Journal, Vol. 259, pp. 391-396 (SCI, 5-year-IF = 4.18, 8/133, 6.02%, Engineering, Chemical), selected as Journal Cover.

8/133

4

Chen, C.-Y., Cheng, L.-Y., Hsu, C.-C., and Mani, K., 2015, "Microscale flow propulsion through bioinspired and magnetically actuated artificial cilia," Biomicrofluidics, Vol. 9, pp. 034105 (SCI, 5-year-IF = 3.46, 3/31, 9,67%, Physics, Fluids & Plasmas).

3/31

5

Chen, C.-Y., Chang Chien, T.-C., Mani, K., and Tsai, H.-Y., 2016, "Axial orientation control of zebrafish larvae using artificial cilia," Microfluidics and Nanofluidics, Vol. 20, pp. 1-9 (SCI, 5-year-IF = 2.76, 7/56, 12.5%, Instrument & Instrumentation). 

7/56

6

Mani, K., Chang Chien, T.-C., Panigrahi, B., and Chen, C.-Y.2016, "Manipulation of zebrafish's orientation using artificial cilia in a microchannel with actively adaptive wall design," Scientific Reports, (SCI, 5-year-IF = 5.53, 7/63, 11.1%, Multidisciplinary Sciences). 

7/63

7

Huang, P.-Y., Panigrahi, B., Lu, C.-H., Huang, P.-F., and Chen, C.-Y.2017, "An artificial cilia-based micromixer towards the activation of zebrafish sperm," Sensors and Actuators B: Chemical, Vol. 244, pp. 541-548 (SCI, 5-year-IF = 4.58, 2/56, 3.57%, Instruments & Instrumentation).

2/56

 

BOOK CHAPTERS:

Goktas, S., Chen, C.-Y., Kowalski, W. J., and Pekkan, K.,in Methods in Molecular Biology Tissue Morphogenesis. Hemodynamic Flow Visualization of Early Embryonic Great Vessels using μPIV, (Ed: Nelson, C. M.), Springer, 2015.

Link to article

PEER-REVIEWED JOURNAL ARTICLES:

0. Panigrahi, B., Chen, C.-Y., Lu, C.-H., Ghayal, N., and Chen, C.-Y., 2017, “Sperm activation through orbital and self-axis revolutions using artificial cilia embedded serpentine-microfluidic platform,” submitted.

0. Bordones, A., Lerous, M., Kheyfets, V., Wu, Y.-A., Chen, C.-Y., and Finol, E., 2017, “Computational fluid dynamics modeling of the human pulmonary arteries with experimental validation,” under review.

0. Danis, U., Rasooli, R., Chen, C.-Y., Dur, O., Sitti, M., and Pekkan, K., 2017, “Thrust and hydrodynamic efficiency of the bundled flagella,” under review.

0. Mani, K., Huang, P.-F., Lin, W.-C., Panigrahi, B.,  Lu, Y.-H, and Chen, C.-Y., 2017, “A multi-inlet microfluidic extruder with shpe memory alloy-based switching for systematic bioprinting,” under review.

0. Lu, Y.-H, Mani, K., Hsu, W.-T., Hajari, S., Panigrahi, B., and Chen, C.-Y., 2017, “A shape memory alloy-based miniaturized actuator for catheter interventions,” under review.

0. Panigrahi, B., Huang, P.-F., Chong, K.-S., Li, W.-H., Liu, Y.-L., Lu, T.-Y., and Chen, C.-Y.2017, "Hydrodynamic investigation of a wafer rinse process through numerical modeling and flow visualization methods," under review.

2017

1. Wu, Y.-A., Panigrahi, B., Lu, Y.-H., and Chen, C.-Y.2017, "An integrated artificial cilia based microfluidic device for micropumping and micromixing applications," Micromachines, Vol. 8, pp. 260 (SCI, 5-year-IF = 1.92, 23/58, 40%, Instruments & Instrumentation).

Link to article

2. Wu, Y.-A., Panigrahi, B., and Chen, C.-Y.2017, "Hydrodynamically efficient micropropulsion through a new artificial cilia beating concept," Microsystem Technologies, (SCI, 5-year-IF = 0.889, 158/257, 61%, Engineering, Electrical & Electronic), accepted.

Link to article

3. Huang, P.-Y., Panigrahi, B., Lu, C.-H., Huang, P.-F., and Chen, C.-Y.2017, "An artificial cilia-based micromixer towards the activation of zebrafish sperm," Sensors and Actuators B: Chemical, Vol. 244, pp. 541-548 (SCI, 5-year-IF = 4.58, 2/56, 3.57%, Instruments & Instrumentation).

Link to article

4. Chen, J.-M., Chen, C.-Y., Wong, C. P., and Chen, C.-Y.2017, "Inherent formation of porous p-type Si nanowires using palladium-asisted chemcial etching," Applied Surface Science, Vol. 392, pp. 498-502 (SCI, 5-year-IF = 2.98, 1/18, 5.56%, Material Science, Coating & Films). 

 

Link to article

2016

5. Mani, K., Chang Chien, T.-C., Panigrahi, B., and Chen, C.-Y.2016, "Manipulation of zebrafish's orientation using artificial cilia in a microchannel with actively adaptive wall design," Scientific Reports (SCI, 5-year-IF = 5.53, 7/63, 11.1%, Multidisciplinary Sciences). 

Link to article

6. Lu, Y.-H., Mani, K., Panigrahi, B., Hsu, W.-T., and Chen, C.-Y., 2016, “Endoleak assessment using computational fluid dynamics and image processing methods in stented abdominal aortic aneurysm models,” Computational and Mathematical Methods in Medicine, invited for a special issue of "Computational and Mathematical Methods in Cardiovascualr Diseases" (SCI, 5-year-IF = 0.96, 42/56, 75.0%, Mathematical & Computational Biology). 

Link to article

7. Pekkan, K., Chang, B., Usla, F., Mani, K., Chen, C.-Y., and Holzman, R., 2016, "Characterization of zebrafish larvae suction feeding flow using microPIV and optical coherence tomography," Experiments in Fluids, Vol. 75, pp. 112 (SCI, 5-year-IF = 1.87, 30/130, 23.1%, Engineering, Mechanical). 

Link to article

8. Chen, C.-Y., Chang Chien, T.-C., Mani, K., and Tsai, H.-Y., 2016, "Axial orientation control of zebrafish larvae using artificial cilia," Microfluidics and Nanofluidics, Vol. 20, pp. 1-9 (SCI, 5-year-IF = 2.76, 7/56, 12.5%, Instrument & Instrumentation). 

Link to article

9. Chen, C.-Y.Hsu, C.-C., Mani, K., and Panigrahi, B., 2016, "Hydrodynamic influences of artificial cilia beating behaviors on micromixing," Chemical Engineering and Processing: Process Intensification, Vol. 99, pp. 33-40 (SCI, 5-year-IF = 2.34, 48/135, 35%, Engineering, Chemical). 

Link to article

10. Chen, C.-Y.Chen, C.-Y., Hsiao, P.-H., Hsu, C.-C., Mani, K., 2016, "Efficient metamaterial-based plasmonic sensors for micromixing evaluation," Journal of Physics D: Applied Physics, Vol. 49, pp. 035501 (SCI, 5-year-IF = 2.71, 27/144, 18.8%, Physics, Applied). 

Link to article

2015

11. Chung, C., Chen, Y.-J., Chen, P.-C, and Chen, C.-Y., 2015, "Fabrication of PDMS passive micromixer by low-wax casting," International Journal of Precision Engineering and Manufacturing, Vol. 16, pp. 2033-2039 (SCI, 5-year-IF = 1.37, 33/128, 26%, Engineering, Mechanical).

Link to article

12. Chen, C.-Y.Cheng, L.-Y., Hsu, C.-C., and Mani, K., 2015, "Microscale flow propulsion through bioinspired and magnetically actuated artificial cilia," Biomicrofluidics, Vol. 9, pp. 034105 (SCI, 5-year-IF = 3.46, 3/31, 9.67%, Physics, Fluids & Plasmas), NSC 103-2221-E-006-269.

Link to article

13. Chen, C.-Y., Lin, C.-Y., Hu, Y.-T., Cheng, L.-Y., and Hsu, C.-C., 2015, "Efficient micromixing through artificial cilia actuation with fish-schooling configuration," Chemical Engineering Journal, Vol. 259, pp. 391-396 (SCI, 5-year-IF = 4.18, 8/133, 6.02%, Engineering, Chemical), NSC 103-2221-E-006-269. (Selected as Journal Cover)(The article has been viewed or downloaded 495 times since publication, Elsevier article usage alert)

Link to article

14. Antón, R.Chen, C.-Y., Hung, M.-Y., Finol, E. A., and Pekkan, K., 2015, “Experimental and computational investigation of the patient-specific abdominal aortic aneurysm pressure field,” Computer Methods in Biomechanics and Biomedical Engineering, Vol. 18, pp. 981-992 (SCI, 5-year-IF = 1.64, 48/100, 48.0%, Computer Science, Interdisciplinary Applications).

Link to article

2014

15. Chen, C.-Y., Yao, C.-Y., Lin, C.-Y., and Wang, C.-W., 2014, "Real-time remote control of artificial cilia actuation using fingertip drawing for efficient micromixing," JALA-Journal of Laboratory Automation, Vol. 19, pp. 492-497 (SCI, IF = 1.50, 45/76, 59.2%, Chemistry, Analytical), NSC 102-2221-E-006-297-MY3.

 

Link to article

16. Chen, C.-Y., Lin, C.-Y., and Hu, Y.-T., 2014, "Inducing 3D vortical flow patterns with 2D asymmetric actuation of artificial cilia for high-performance active micromixing," Experiments in Fluids, Vol. 55, pp. 1765 (SCI, 5-year-IF = 2.22, 24/126, 19.0%, Engineering, Mechanical), NSC 102-2221-E-006-297-MY3.

Link to article

17. Chen, C.-Y. and Cheng, C.-M., 2014, “Microfluidics expands the zebrafish potentials in pharmaceutically relevant screening,” Advanced Healthcare Materials, Vol. 3, pp. 940-945 (SCI, IF = 4.88, 5/32, 15.6%, Material Science, Biomaterials), NSC 102-2221-E-006-297-MY3.

Link to article

18. Chen, C.-Y., Antón, R., Hung, M.-Y., Menon, P. G., Patrick, M. J., Finol, E. A., and Pekkan, K., 2014, “Effects of intraluminal thrombus on patient-specific abdominal aortic aneurysm hemodynamics via stereoscopic PIV and CFD modeling,” Journal of Biomechanical Engineering-Transactions of the ASME, Vol. 136, pp. 031001 (SCI, 5-year-IF = 2.05, 43/79, 54.4%, Engineering, Biomedical), NSC 101-2218-E-011-041.

Link to article

19. Lu, Y.-H, Chen, C.-Y., Menon, P., Liu, K.-T., and Lin, H.-H., 2014, “Hemodynamic effects of endoleak formation in abdominal aortic aneurysm patients with stent-graft implants,” Journal of Medical and Biological Engineering, Vol. 34, pp. 554-558 (SCI, IF = 0.904, 60/79, 75.9%, Engineering, Biomedical), NSC 101-2218-E-011-041.  (Selected as 2014 JMBE Excellent Annual Paper)

Link to article

2013

20. Chen, C.-Y.and Chen, C.-Y., 2013, “Influences of textured substrates on heart rate of developing zebrafish embryos,”  Nanotechnology, Vol. 24, pp. 265101 (SCI, 5-year-IF = 3.84, 18/128, 14.1%, Physics, Applied), NSC 101-2218-E-011-041.

Link to article

21. Chen, C.-Y., Chen, C.-Y., Lin, C.-Y., and Hu, Y.-T., 2013, “Magnetically actuated artificial cilia for optimum mixing performance in microfluidics,” Lab on a Chip, Vol. 13, pp. 2834-2839 (SCI, 5-year-IF = 6.14, 6/75, 8.00%, Biochemical Research Methods), NSC 101-2811-E-011-601. (First publication as an independent PI)

Link to article

22. Chen, C.-Y. and Pekkan, K., 2013, “High-speed three-dimensional characterization of fluid flows induced by micro-objects in deep microchannels,” BioChip Journal, Vol. 7, pp. 95-103 (SCI, 5-year-IF = 0.680, 66/75, 88.0%, Biochemical Research Methods).

Link to article

23. Chen, C.-Y., Menon, P., Kowalski, W., and Pekkan, K., 2013, “Time-resolved OCT-µPIV: A new microscopic PIV technique for noninvasive depth-resolved pulsatile flow profile acquisition,” Experiments in Fluids, Vol. 54, pp. 1426 (SCI, 5-year-IF = 2.01, 27/125, 21.6%, Engineering, Mechanical).

Link to article

24. Menon, P., Teslovich, N., Chen, C.-Y., Undar, A., Pekkan, K., 2013, "Characterization of neonatal aortic cannulae jet flow regimes for improved cardiopulmonary bypass," Journal of Biomechanics, Vol. 46, pp. 362-372 (SCI, 5-year-IF = 3.03, 18/79, 22.8%, Engineering, Biomedical).

Link to article

2011

25. Chen, C.-Y., Patrick, M. J, Corti, P., Kowalski, W., Roman, B. L., and Pekkan, K., 2011, “Analysis of early embryonic great-vessel microcirculation in zebrafish using high-speed confocal µPIV,” Biorheology, Vol. 48, pp. 305-321 (SCI, 5-year-IF = 1.91, 52/79, 65.8%, Engineering, Biomedical).

26. Lara, M., Chen, C.-Y., Mannor, P., Dur, O., and Pekkan, K, 2011, “Hemodynamics of the hepatic venous three-vessel confluences using particle image velocimetry,” Annals of Biomedical Engineering, Vol. 39, pp. 2398-2416 (SCI, 5-year-IF = 2.55, 21/79, 26.6%, Engineering, Biomedical).

27. Corti, P., Young. S., Chen, C.-Y., Patrick, M. J., Rochon, E., Pekkan, K., and Roman, B. L., 2011, “Interaction between alk1 and blood flow in development of arteriovenous malformations,” Development, Vol. 138, pp. 1573-1582 (SCI, 5-year-IF = 6.89, 5/41, 12.2%, Developmental Biology).

28. Patrick, M. J, Chen, C.-Y., Frakes, D. H., Dur, O., and Pekkan, K., 2011, “Cellular-level near-wall unsteadiness of high-hematocrit erythrocyte flow using confocal microPIV,” Experiments in Fluids, Vol. 50, pp. 887-904 (SCI, 5-year-IF = 2.01, 27/125, 21.6%, Engineering, Mechanical).

 

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