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姓名Name 陳炳煇 Ping-Hei Chen
職稱Title 終身特聘教授 Distinguished Professor
辦公室Office 工綜720室720 Engineering Building
電話Phone 3366-2689
傳真Fax 2363-1755
電子郵件E-mail phchen@ntu.edu.tw
個人網頁Homepage  
實驗室Lab 微機械熱流控制實驗室
自傳
Short Biography

Ping-HeiChen

Received the B. Sc. Degree in Mechanical Engineering from National Taiwan University in 1980. He then received the M. S. and Ph. D. degree from the University of Minnesota in 1984 and 1988, respectively. Since 1988, he had been an Associate Professor in the Department of Mechanical Engineering at National Taiwan University. He was promoted to the full Professor at 1996, then served as the vice-Chairman for two years, and Chairman for three years at Department of Mechanical Engineering in National Taiwan University. His current research interests are MEMS, Biochips, Diamond film wafer, Nanotechnology, Thermal and Fluid Control in MEMS, and Packaging for optical devices and IC. He has published more than 60 academic journal papers, 90 conference papers, and ten patents, and three textbook. He is a member of ASME, CSME, CIE, CIAA, and CMEMSS.

研究領域
Research Interests
MEMS, Biochips, Diamond film wafer, Nanotechnology, Thermal and Fluid Control in MEMS, and Packaging for optical devices and IC.
教學課程
Teaching Courses
Micromechanics, Engineering Mathematics, Heat transfer, Conduction and Radiation.
研究計劃
Research Projects

研究計畫: 過去五年總計畫經費 NT$ 67,000,000
Research Projects: Total fund in the past five years: NT$67,000,000

1.利用微流道篩選奈米顆粒之研究與技術開發(2/3),主持人,計劃期間:94/08/01-95/7/31,國科會,研究經費:NT$902,000。
Development of Microfluidic Chips for Sieving Nanoparticles (II), PI; National Science Council, 08/2005-07/2006, US$28,000

2.一種新型熱對流PCR機台與其試劑之開發,共同主持人,計劃期間:96/09/01-97/08/31,基亞生物科技股份有限公司,研究經費:NT$3,000,000。
Development of a Novel Convective PCR and its Reagent, Co-PI; 96/09/01-97/08/31, Medigen Biotechnology Corp. US$ 84,000

3.射頻生物分子感測系統之研究與開發(1/3),主持人,計劃期間:96/08/01-97/7/31,國科會,研究經費:NT$1,167,000。
Development of a RFID Biochip for Detecting Biomolecules(I), PI; 96/08/01-97/7/31, NSC, US$35,000

4.DNA檢測之微全分析系統之研發-子計畫一:DNA訊號放大與檢測晶片之研發(1/3) ,主持人,計劃期間:96/08/01-97/7/31,國科會,研究經費:NT$1,021,000。
Development of a Biochip of DNA amplification and Detection, PI; 96/08/01-97/7/31, NSC, US$33,000

5.白光發光二極體應用於室內照明之研究與開發,主持人,計劃期間:96/07/01-97/06/30,奇鋐股份有限公司,研究經費:NT$700,000。
Application of Novel White LED to Indoor Lighting, PI; AVC Inc., 07/2007-06/2008, US$115,000

6.高靈敏度DNA檢測系統之研究與開發(2/2),主持人,計劃期間:95/08/01-96/7/31,國科會,研究經費:NT$740,000。
A High-Sensitivity Biochip for DNA Detection with Gold and Magnetic Nanoparticles, (II), PI; National Science Council, 08/2006-07/2007, US$22,000

7.利用微流道篩選奈米顆粒之研究與技術開發(3/3),主持人,計劃期間:95/08/01-96/7/31,國科會,研究經費:NT$1,040,000。
Development of Microfluidic Chips for Sieving Nanoparticles (I), PI; National Science Council, 08/2004-07/2007, US$28,000

8.液體動壓軸承風扇開發計畫之動壓軸承內部三維流場模擬分析及偏轉位移量測,主持人,計劃期間:95/07/01-96/06/30,奇鋐股份有限公司,研究經費:NT$3,700,000。
Development of a Hydrodynamic Journal Bearing for a CPU Cooling Fan, PI; AVC Inc., 07/2006-06/2007, US$115,000

9.國立台灣大學機械工程學系華碩電腦實驗室-CPU水冷系統之開發,共同主持人,計劃期間:94/11/01-95/10/31,華碩電腦,研究經費:NT$3,051,931。
Research Lab Sponsored by ASUS, Co-PI; ASUS Inc., 11/2005-10/2006, US$90,000

10.晶片載具型即時偵測同步定量聚合?連鎖反應器開發,總主持人,計劃期間:95/03/01-97/08/31,國科會,研究經費:NT$9,970,000。
Development of Real-Time PCR with Lab-on-a-Chip, PI; National Science Council, 03/2006-08/2008, US$300,000

11.95年「航空技術」學門發展及推動規劃計畫,主持人,計劃期間:95/01/01-95/12/31,國科會,研究經費:NT$796,500。
Planning and Promotion of Aeronautical and Aerospace Researches, PI; 2006, 95/1/01-95/12/31, NSC, US$ 25,000

12.推動學界研發能量參與提升產業界知識經濟產值,主持人,計劃期間:94/09/01-95/08/31,國科會,研究經費:NT$752,400。
Promotion for Research Integration between Academic and Industrial Fields, PI; National Science Council, 09/2005-07/2006, US$22,000

13.高靈敏度DNA檢測系統之研究與開發(1/2),主持人,計劃期間:94/08/01-95/7/31,國科會,研究經費:NT$1,721,000。
A High-Sensitivity Biochip for DNA Detection with Gold and Magnetic Nanoparticles (I), PI; National Science Council, 08/2005-07/2006, US$22,000

14.RFID教育暨研發實驗資源中心計畫,協同主持人,計劃期間:96/09/01-97/03/31,教育部,研究經費:NT$14,401,241。
RFID Educational and Research Center, Co-PI; Ministry of Education, 09/2007-03/2008, US$400,000

15.94年「航空技術」學門發展及推動規劃計畫,主持人,計劃期間:94/1/1-94/12/31, 國科會,研究經費:NT$796,500。
Planning and Promotion of Aeronautical and Aerospace Researches, 2005, 94/1/01-94/12/31, NSC, US $ 25,000

16.應用奈米流體增強熱管性能之研究(2/2),主持人,計劃期間:93/08/01-94/07/31, 國科會,研究經費:NT$775,400。
Application of Nanofluid for Enhancing Thermal Performance of Heat Pipe (II), PI; National Science Council, 08/2003-07/2004, US$25,000

17.利用微流道篩選奈米顆粒之研究與技術開發(1/3),主持人,計劃期間:93/08/01-94/7/31,國科會,研究經費:NT$832,800。
Development of Microfluidic Chips for Sieving Nanoparticles(I), PI; National Science Council, 08/2004-07/2005, US$28,000

18.93年「航空技術」學門發展及推動規劃計畫,主持人,計劃期間:93/1/1-93/12/31,國科會,研究經費:NT$777,500。
Planning and Promotion of Aeronautical and Aerospace Researches, PI; 2004, 93/1/01-93/12/31, NSC, US$ 25,000

19.即時定量複式PCR系統開發-子計畫一:即時定量複式PCR溫控系統與光學檢測系統開發, 主持人,計劃期間:92/11/01-93/07/31,國科會,研究經費:NT$482,700。
Development of Optical Detection System for a Multiplexing Real-Time PCR, PI; 92/11/01-93/07/31, NSC

20.新型雷射二極體之封裝技術(2/2),主持人,計劃期間:92/08/01-93/07/31,國科會,研究經費:NT$955,900。
A Novel Packaging Technology for Laser Diodes (II), PI; National Science Council, 08/2002-07/2004, US$29,000

21.即時定量複式PCR系統開發-總計畫,主持人,計劃期間:92/11/01-93/07/31,國科會,研究經費:NT$484,900。
Development of a Multiplexing Real-Time PCR, PI; 92/11/01-93/07/31, NSC


研究著作
Publications

A.學術期刊論文

Accepted and Published Referred Papers: (引用超過9次11篇)
84 SCI journal papers, 8 EI journal Papers, 11 other journal papers
1. Tsai, Chung-Hang, Liu, Da-Sheng, Kuo, Long-Sheng, and Chen, Ping-Hei*, “Rapid mixing between ferro-nanofluid and water in a semi-active Y-Type micromixer,” Sensors and Actuators A. (SCI) (17/55)
2. Miao, J. M., Wu, C. Y., and Chen, Ping-Hei*, Numerical Investigation of Confined Multiple-jet Impingement Cooling over a Flat Plate at Different Crossflow Orientaions,” Numerical Heat Transfer, A: Application,Vol. 55, pp. 1019-1050. (SCI) (21/112)
3. Liou, Dar-Sun, Kuo, Long-Sheng, Chen, Ping-Hei*, Chang, Tien-Li, and Yang, Chin-Ting, 2009, “Axial particle displacements in fluid slugs after passing a simple serpentiform microchannel,” Microfluidic and Nanofluidic. (SCI) (4/55)
4. Kuo, Long-Sheng, and Chen Ping-Hei*, 2009, “A Unified Approach for Nonslip and Slip Boundary Conditions in the?Lattice Boltzmann Method,”?Computers and Fluids, Vol. 38, pp. 883-887. (SCI) (19/112) doi:10.1016/j.compfluid.2008.09.008?
5. Chien, Liang-Ju, Wang, Jung-Hao, Hsieh, Tsung-Min, Chen, Ping-Hei, Chen, Pei-Jer, Lee, Da-Sheng, Luo, Ching-Hsing, and Lee, Gwo-Bin*, 2009, “A Micro Circulating PCR chip Using a Suction-type Membrane for Fluidic Transport,” Biomedical Microdevices, Vol. 11, No. 2, pp. 359-367. (SCI) (5/44) DOI 10.1007/s10544-008-9242-z
6. Hung, Min-Sheng*, Ding, Pei-Pei, and Chen, Ping-Hei, 2009, “Effects of Injection Angle Orientation on Concave and Convex Surfaces Film Cooling,” Experimental Thermal and Fluid Science, Vol. 33, pp. 292-305. (SCI) (39/107)? (The first and corresponding author is my ex-Ph. D. student) doi:10.1016/j.expthermflusci.2008.09.011(The first and corresponding author is my ex-Ph. D. student)
7. Kuo, Long-Sheng, and Chen Ping-Hei*, 2009, “Numerical Implementation of Thermal Boundary Conditions in the?Lattice Boltzmann Method,”??Int. J. Heat Mass Transfer, Vol. 52, pp. 529-532. doi:10.1016/j.ijheatmasstransfer.2008.07.017(SCI) (7/107)
8. Kuo, Long-Sheng, and Chen, Ping-Hei*, 2009, “Effects of Slip Boundary Conditions on Rayleigh-Benard Convection,” J. of Mechanics, Vol. 25, pp. 205-212. (SCI)
9. Chen, P.-H.*, Lee, Y. W., and Chang, T. L., 2009, “Predicting Thermal Instability in a Closed Loop Pulsating Heat Pipe System,” Applied Thermal Engineering, Vol. 29, pp. 1566-1576. (SCI) (29/107) doi:10.1016/j.applthermaleng.2008.07.007?
10. Tsai, Chung-Hang, Kuo, Long-Sheng, Chen, Ping-Hei*, and Yang, Chin-Ting, 2008, “Effect of Viscosity of Base Fluid on Thermal Conductivity of Nanofluid,” Applied Physics Letters, Vol. 93, Art. No. 233121. (SCI) (8/94) DOI: 10.1063/1.3046732
11. Miao, J. M., Chang. B. H., and Chen, Ping-Hei*, 2008, “Numerical Predictions of a Flow Field in a Hydrodynamic Journal Bearing with Herringbone Microgrooves,” Progress in Computational Fluid Dynamics, Vol. 8, No. 7/8, pp. 486-495. (SCI)
12. Miao, Jr-Ming*, Chen, Ping-Hei; Wang, Ding-San, 2008, “Effects of Mainstream Turbulence Level and Injection Hole Location on Film-Cooled Stagnation Mass and Heat Transfer,” Journal of Flow Visualization and Image Processing, Vol., 15, pp. 129-155. (EI) 10.1615/JFlowVisImageProc.v15.i2.30. (The first and corresponding author is my ex-Ph. D. student)
13. Chien, J. H., Yang, C. H., Chen, P. H.*, Yang, C. R., Lin, C. S., and Wang H., 2008,“DNA Detection Using a Radio Frequency Biosensor with Gold Nanoparticles,” Frontier in Bioscience, Vol. 13, pp. 4756-4764. (SCI) (106/263) DOI: 10.2741/3037
14. Yang, C. H., Chien, J.-H., Wang, B. Y., Chen, Ping-Hei*, and Lee, Da-Sheng, 2008, “Development of a Flexible Surface Wetness Sensor Using a RFID Technique” Biomedical Microdevices, Vol. 10, Feb., pp. 47-54. (SCI) (5/44) DOI: 10.1007/s10544-007-9108-9
15. Lee, I-Chien, Chen, Ping-Hei*, and Chyu, Minking, 2008, “An Experimental Investigation of Jet Flows through a Row of Forward Expanded Holes into a Mainstream over a Concave Surface,” Experimental Thermal and Fluid Science, Vol. 32, pp. 1068-1080. (SCI) (39/107) DOI: 10.1016/j.expthermflusci.2007.12.002
16. Chang, S. W.*, Chiang, K. F., Zheng, Yao, Huang, C. C., and Chen, Ping-Hei, 2008, “Detailed Heat Transfer Measurements of Curved Finned Channels, Heat Transfer Engineering, Vol. 29, pp. 849-863. (SCI) (38/107) DOI: 10.1080/01457630802125641
17. Chen, Ping H., Chang, Shyy W.*, Chiang, Kuei F., and Ji, Li, 2008, “High Power Electronic Component: Review,” Recent Patents on Engineering, Vol. 2, pp. 174-188.
18. Chien, J. H., Chen, P. H.*, Kuo, L. S., Lin, C. S., and Wang H., 2007, “Protein Detection Using a Radio Frequency Biosensor with Gold Nanoparticles,” Applied Physics Letters, Vol. 91, No. 14, Art. No. 143901. (SCI) DOI: 10.1063/1.2794758
19. Lee, I.-J., and Chen, P. H.*, 2007, “An Inclined Jet through A Forward Expanded Hole Ejected into Mainstream over A Concave Surface,” JSME International. Journal of Fluid Science and Technology, Vol. 7, No. 2, Sep., pp. 311-321. (SCI)
20. Chang, Tien-Li, Tsai, Chien-Ying, Sun, C.-C., Chen, C.-C., Kuo, L.-S., and and Chen, Ping-Hei*, 2007, “Ultrasensitive Electrical Detection of Protein Using Nanogap Electrodes and Nanoparticle-Based DNA Amplification,” Biosensors and Bioelectronics Vol. 22, pp. 3139-3145. (SCI Journal) DOI: 10.1016/j.bios.2007.02.003 (cited number : 7)
21. Chang, C.-W., Cheng, Y.-T. Tsai, C.-Y., Chien, J.-H., Wang, P.-Y, and Chen, P.-H.*, 2007, “Periodic Flow Patterns of the Magnetic Fluid in Microchannel,” Journal of Magnetism and Magnetic Materials, Vol. 310, pp. 2844-2846. (SCI Journal) (48/189)
22. Cheng, Yi-Ting, Chang, Chih-Wei, Chien, J. H., Kuo, J.-S., Chen, W.-T., and Chen, Ping-Hei*, 2007, “A Novel CMOS Sensor for Measuring Thermal Diffusivity of Liquids” Sensors and Actuators, A. Vol. 135, pp. 451-457. (SCI Journal). DOI: 10.1016/j.sna.2006.08.026
23. Cheng, Yi-Ting, Tsai, Chien-Ying, and Chen, Ping-Hei*, 2007, “Development of an Integrated CMOS DNA Detection Biochip,” Sensors and Actuators B: Chemical. Vol. 120, pp. 758-765. (SCI Journal) doi:10.1016/j.snb.2006.03.045 (cited number:6)?
24. Chang, Tien-Li*, Liou, Dar-Sun, Ping-Hei Chen, Lin, Hung-Yi, and Chang, Fu-Yu, 2007, “Ultrasensitive Electrical DNA Identification with?Bio-Bar-Code DNA and Nanoparticles in Nanogap?Device,” Tamkang Journal of Science and Engineering,. Vol. 10, No.2 pp. 133-136.(EI Journal) (The first author and corresponding author is my ex-Ph. D. student)
25. Tsai, Chien-Ying, Chang, Tien-Li, Kuo, Long-Sheng, and Chen, Ping-Hei*, 2006, “Detection of Electrical Characteristics of DNA Strands Immobilized on Self-assembled Multilayer Gold Nanoparticles” Applied Physics Letter, Vol. 89, No. 20, Art. No. 203902 (SCI Journal) DOI: 10.1063/1.2390653 (cited number:5)
26. Chien, Jui Hung, Lee Da Sheng, Cheng, Yi Ting, Yeh, Shou Huei, Chou, Wen Ping, and Chen, Ping Hei*, 2006, “A Novel Fluorescence quantification method for Polymerase Chain Reaction System”, Optics Communications, Vol. 266, pp. 744-750. (SCI Journal, number cited: 1)
27. Shyu, J.-C., Chang, Z. W., and Chen, P. H. *, 2006, “A Simplified Correlation for Bubble Volume Estimation,” Canadian J. of Chem. Eng., Vol. 84, pp. 183-188. (SCI Journal).
28. Chang, Tien-Li, Tsai, Chien-Ying, Sun Chih-Chen, Uppala, Ramesh, Chen, Chun-Chi, Lin, Chun-Hung, Chen, Ping-Hei*, 2006, “Electrical Detection of DNA Using Gold and Magnetic Nanoparticles and Bio Bar-Code DNA between Nanogap Electrodes,” Microelectronic Engineering, Vol. 83, Apr., pp. 1630-1633.(SCI Journal, number cited: 1)
29. Lee, Y.-W., Chang, C.-W., Miao, J.-M., and Chen, Ping-Hei*, 2006, “Conjugate Heat Transfer Analysis of a Disk-Shaped Miniature Heat Pipe,” Numerical heat transfer, A, Applications, Vol. 49, No. 1, pp. 25-45. (SCI Journal)
30. Lee, Chi-Yuan*, Chang, Pei-Zen Chang, Chen, Yung-Yu, Dai, Ching-Liang, Wang, Xuan-Yu, Chen, Ping-Hei, and Lee, Shuo-Jen, 2006, “A Novel Method for In-Situ Monitoring of the Thickness of a Silicon Wafer during Wet Etching” Sensors and Materials, Vol. 18, No. 2, pp. 71-82. (SCI Journal) (The first author and corresponding author is my ex-Ph. D. student)
31. Liu, Jui-Jung, Lee, Ya-Wei, Wang, Fu-Cheng, Uppla, Ramesh, and Chen, Ping-Hei*, 2006, “Time and Frequency Domain Identification and Analysis Of A Permanent Magnet Synchronous Servo Motor,” J. of Chin. Inst. Engr. Vol. 29, No. 4, pp. 683-695. (SCI Journal:0.295).(number cited:3)
32. Kuo, J.-S., Sun, W. S., and Chen, P. H. *, 2006, “Theoretical Analysis of a Novel Device for Measuring the Thermal Conductivity of Liquids,” Int. Comm. Heat Mass Transfer, Vol. 33, pp. 426-433. (SCI Journal, number cited: 1)
33. Kuo, J.–S., Chiu, K.–T., Hsu, S.–W., Chen, P.–H. *, Liao, Y.–S., Yang, C.–R., 2006, “A novel Technique for Fabrication of Herringbone Grooves in Dynamic Thrust Bearing Combining UV-LIGA with Electro-Discharge-Machining,” Microsystem Technologies. Vol. 12, pp. 529-536. (SCI Journal) (number cited: 1)
34. Lee, C.-Y. *, Cheng, Y.-C., Wu, T.-T., Chen, Y.-Y., Chen, W.-J., Pao, S.-Y., Chang, P.-Z., Chen, Ping-Hei, 2005, “Novel Method for In-situ Monitoring of Thickness of Quartz during Wet Etching,” Japanese Journal of Applied Physics, Vol. 44, No. 10, pp.7662-7666. (SCI Journal) (The first and corresponding author is my ex-Ph. D. student)
35. Chu, Cheng-Che, Hwang, Gan-Ling, Chiou, J. W., Tsai, Chien-Ying, Lin, Hsiu-Mei, Chang, C. S. Pong, W. F., Guo, J. H., Chen, Ping-Hei, and Luh, Tien-Yau*, 2005, “Chemical Synthesis of Tetrahedral Amorphous Carbon (ta-C) Nanoballs from Graphitic Carbon Nanocapsules” Advanced Material, Vol. 17, No. 22, pp.2707-2710. (SCI Journal, number cited:2)
36. Tsai, C.-Y., Chang, T.-L., Uppala, R., Chen, C.-C., Ko, F.-H., Chen, Ping-Hei*, 2005, “Electrical Detection of Protein Using Gold Nanoparticles and Nanogap Electrode,” Japanese Journal of Applied Physics, Vol. 44, No. 7B, pp. 5711-5716. (SCI Journal)
37. Chang, S.W.*, Chiang, K.F., Yang, T. L., and Chen, P.-H., 2005, “Heat Transfer in a Twin-Blow Narrow Channel with Two Opposite Walls Roughened by Skewed Ribs Arranged in Staggered Manner,” International Journal of Thermal Science, Vol. 44, pp.694-708. (SCI Journal) ( number cited:1)
38. Cheng, Y.-C. *, Dai, C.-L., Lee, C.-Y., Chen, Ping-Hei, and Chang, P.-Z., 2005, “A Circular Micromirror Array Fabricated by a Maskless Post-CMOS Process,” Microsystem Technologies, Vol. 11, pp. 444-451. (SCI Journal) (number cited:12) (The first and corresponding author is my Ph. D. student)
39. Cheng, Y.-T., Pun, C.-C. Pun, Tsai, C.-Y., and P.-H. Chen*, 2005, “An Array-Based CMOS Biochip for Electrical Detection of DNA with Multilayer Self-assembly Gold Nanoparticles”, Sensors and Actuators, B, Chemical, Vol 109, pp. 249-255. (SCI Journal)(number cited:14) doi:10.1016/j.snb.2004.12.072??
40. Lee, D.-S. *, Chang, B.-H., and Chen, P.-H., 2005, “Development of a CCD-based Fluorimeter for real time PCR machine,” Sensors and Actuators, B, Chemical, Vol. 107, pp. 872-881. (number cited:2)
41. Cheng, Y.-C.*, Dai C.-L., Lee, C.-Y., Chen, Ping-Hei, and Chang, P.-Z., 2005, "A MEMS Micromirror Fabricated Using CMOSPostprocess, "Sensors and Actuators A, Physical, Vol. 120, pp. 573-581. (SCI Journal) (12/53) (number cited:6) doi:10.1016/j.sna.2005.02.009??
42. Chiang, K.F., Chang, S.W. *, and Chen, P.-H., 2005, “Forced Convective Heat Transfer of 45° Rib-Roughened Fin Flows,” Experimental thermal and fluid science, Vol. 29, pp.743-754. (SCI Journal)(29/106)( number cited:2)
43. Tsai, C.-Y., Tsai, Y.-H., Pun, C.-C., Chan, B., Luh, T-Y., Chen, C.-C., Ko, F.-H., Chen, P.-J., Chen, P-H. *, 2005, “Electrical Detection of DNA Hybridization with Multilayer Gold Nanoparticles between Nanogap electrodes,” Microsystem Technologies, Vol. 11, pp. 91-96. (number cited by journal paper:6, number cited by conf. paper:3 )
44. Tsai, C.-Y., Chang, T.-L. Chen, C.-C., Ko, F.-H., Chen, Ping-Hei*, 2005, “An Ultra Sensitive DNA Detection by Using Gold Nanoparticle Multilayer in Nano-Gap Electrodes,” Microelectronic Engineering, Vol. 78, pp. 546-555. (number cited:11) doi:10.1016/j.mee.2004.12.070
45. Chen, Y.-T., Ma, K.-J. Tseng, A. A. *, and Chen, P. H., 2005, “Projection Ablation Glass-Based Single and Arrayed Microstructures Using Excimer Laser,” Optics and Laser Technology, Vol. 37, pp. 271-280. (number cited:5)
46. Lee, I-C., Chang, Y.-C., Ding, P.-P., Chen, Ping-Hei*, 2005, “Film Cooling over a Concave Surface through Two Staggered Rows of Compound Angle Holes,” J. of Chin. Inst. Engr., Vol. 28, pp. 827-836. (SCI Journal)
47. Cheng, Y.-C. *, Lee, C.-Y., Chang, P. Z., and Chen, Ping-Hei, 2005, “Study on the Fabrication of CMOS-MEMS and the Computer-aided MEMS Design,” Bulletin of the College of Engineering, N. T. U, No. 91, pp. 21-32. (The first and corresponding author is my Ph. D. student)
48. Lee, D. S. *, Wu, M. T., Ramesh, U., and Chen, P. H., 2004, “A Novel Real Time PCR Machine with a Miniature Spectrometer for Fluorescence Sensing in a Micro Liter Volume Glass Capillary,” Sensors and Actuators, B, Chemical, Vol. 100, No. 3, pp. 401-410. (number cited:5) doi:10.1016/j.snb.2004.02.012??(The first and corresponding author is my Ph. D. student)
49. Lee, C.-Y. *, Cheng, Y.-C., Wu, T.-T., Chen, Y.-Y., Chen, W.-J., Pao, S.-Y., Chang, P.-Z., Chen, Ping-Hei, 2004, “In-situ Monitoring of Silicon Membrane Thickness during Wet Etching Using a SAW Sensor,” Japanese Journal of Applied Physics, Vol. 43, No. 6A, pp.3611-3617. (number cited:1) (The first and corresponding author is my Ph. D. student)
50. Tsai, C.-Y., Lee, D.-S., Tsai, Y.-H., Chan, B., Luh, T.-Y., Chen, P.-J., Chen, Ping-Hei*, 2004, “Shrinking Gold Nanoparticles: Dramatic Effect of a Cryogenic Process on Tannic Acid/ Sodium Citrate Generated Gold Nanoparticles,” Materials Letters, Vol. 58, No. 14, pp. 2023-2026. (SCI Journal)(60/175) (number cited:7)
51. Chen, C.-C., Tsai, C.-Y., Ko, F.-H. *, Pun, C.-C., Chen, H.-L., and Chen, Ping-Hei, 2004,“Room Temperature Operation of Coulomb Blockade Sensor Fabricated by the Self-Assembled Gold Nnaoparticles utilizing DNA Hybridization,” Japan J. Applied Physics, Vol.43, No.6B, pp.3843-3848. (number cited:4)
52. Tsai, C. Y., Chien, H. T., Ding, P. P., Chan, B., Luh, T. Y., Chen, P. H. *, 2004, “Effect of Structural Character of Gold Nanoparticles in Nanofluid on Heat Pipe Thermal Performance,” Materials Letters, Vol. 58, No. 9, pp. 1461-1465. (number cited:28)
53. Lee, D. S., Tsai, J. Y., Yuan, W. H., Chen, P. J., and Chen, P. H. *, 2004,“A New Thermal Cycling Mechanism for Effective Polymerase Chain Reaction in Microliter Volumes,” Microsystem Technologies, Vol. 10, pp. 579-584. (number cited: 1)
54. Sheu, T. S., Kuo, J. S., Ding, P. P., and Chen, P. H. *, 2004,“Theoretical Analysis of Capillary Performance of Triangular Microgrooves,” Microsystem Technologies, Vol. 10, No. 4, pp. 315-322. (number cited:3,)
55. Lee, Chi-Yuan*, Cheng, Ying-Chou, Chen, Yung-Yu, Chang, Pei-Zen, Wu, Tsung-Tsong, Dai, Ching-Liang, Chen, Ping-Hei, Pao, Shih-Yung, and Chen, Wen-Jong, 2004, “A Novel Method for Measuring the Thickness of Quartz using a Plate Wave Sensor,” Journal of the Chinese Society of Mechanical Engineers, Vol. 25, pp. 321-328. (SCI) (The first and corresponding author is my Ph. D. student)
56. Lee, C.-Y. *, Cheng, Y.-C., Wu, T.-T., Chen, Y.-Y., Chen, W.-J., Pao, S.-Y., Chang, P.-Z., Chen, P.-H., Yen, K.-H., and Xiao, F.-Y., 2004, “A Novel Method for Evaluating the Thickness of Silicon Membrane Using a Micromachined Acoustic Wave Sensor,” Tamkang Journal of Science and Engineering, Vol. 7, No. 2, pp. 61-66. (EI Journal)
57. Cheng, Y.-C. *, Lee, C.-Y., Dai, C.-L., Chen,W.-J., Chang, P.-Z., and Ping-Hei Chen, 2004, “Fabrication of Free-space MOEM Device by CMOS Process,” Tamkang Journal of Science and Engineering, Vol. 7, No. 2, pp. 73-76. (EI Journal) (The first and corresponding author is my ex-Ph. D. student)
58. 李其源、吳政忠、陳永裕、鄭英周、鮑世勇、張培仁、陳炳煇, 2004, “濕蝕刻石英晶片厚度即時監控之新穎方法,” 電子月刊,pp. 213-221.
59. 李其源、吳政忠、陳永裕、陳文中、鄭英周、鮑世勇、張培仁、陳炳煇, 2004, “濕蝕刻矽薄膜厚度即時監控之新穎方法,” 科儀新知,第二十五卷第五期,pp. 82-90
60. 陳炳煇,蔡建瑩,蔡宜樺,2003, “金奈米粒子之合成及修飾於DNA之製作方法,” 中華民國力學會訊, 第101期,pp. 1-10.
61. Jeng, S. T., Lee, D. S., Ding, P. P., Chu, S. L., and Chen, P. H. *, 2003, “Disk-Shaped Miniature Heat Pipe (DMHP) with Radiating Micro Grooves for a TO Can Laser Diode Package,” IEEE T. Components and Packaging Technology, Vol.26, No. 3, (Sep.), pp. 569-574. (SCI Journal) (number cited:7) DOI: 10.1109/TCAPT.2003.817648
62. Chen, P. H., Wang, D.-S., Tai, C.-S., Miao, Z.-M., 2003, “Application of the Preconditioning Algorithm for the Flow Computations at Extreme Low Mach Number,” Bulletin of the College of Engineering, N. T. U, (in Chinese), No. 87, pp. 13-24.
63. Cheng, Y., Ding, P. P., Sheu, T.S., Shew, B. Y., Chen, P. H., 2002, “High Performance Flat Miniature Heat Pipes Fabricated by UD-LIGA Process”, Microsystem Technologies, Vol. 9, 23-24. (SCI Journal)
64. Chen, P. H., Shyu, J.-C., and Cheng, W. F., 2002, “Valveless Pressure Regulation with a Submerged Micro-hole,” J. of Chin. Inst. Engr. Vol. 25, pp. 653-661. (cited number:1)
65. Shyu, J.-C., and Chen, P. H., 2002, “Air bubble generation through a submerged micro-hole,” Chemical Eng. Research and Design, Vol. 80, pp. 355-363. (SCI Journal, number cited:3)
66. Chuang, T. H., Chen, P. H. , Tseng, Y. H., Tsao, L. C., Wang, S. S., Chang, S. Y., and Chang, L. S., 2002, “Forming and Bonding Microchannels for the Manufacture of IC Chip Heat Dissipators,” Bulletin of the College of Engineering, N. T. U, (in Chinese), No. 34, pp. 73-78.
67. Lee, C. Y., Yang, L.-J., and Chen, P. H., 2002, “The Zeroth Order Solution of Velocity Field around Micro Comb Structures with Lateral Oscillation”, J. of Chin. Inst. Engr. Vol. 25, pp. 57-65. (cited number:1)
68. 陳炳煇,蔡建瑩,2002, “整合微型高分子 鏈結反應暨電泳之生物晶片,” 機械月刊
69. Tai, C. H. , Wang D. S., Chen P. H., Hsu U. K., Miao J. M., 2001, “Numerical studies of the passage flowfield in a 3-D transonic turbine blade cascade”, Journal of Mechanics, Vol. 17 (4), pp. 221-230. (SCI Journal)
70. Chen P. H., Hung MS, and Ding PP, 2001, “Film cooling performance on curved walls with compound angle hole configuration,” Heat Transfer in Gas Turbine Systems, ANN. New York Acad. Sciences, New York, Vol. 934, pp. 353-360. (number cited:9)
71. Cheng, Y., Shewa, B. -Y., Chyu, M. K., and Chen, P. H., 2001, “Ultra-deep LIGA process and its applications”, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment,Vol., 467-468, Part, 2, , pp. 1192-1197. (number cited:6)
72. Chen P.-H., Peng, H.-Y., Hsieh, J.-M., and Chyu, M. K., 2001, “The characteristic behavior of TMAH water solution for anisotropic etching on both Silicon substrate and SiO2 layer,” Sensors and Actuators A: Physcial. Vol. 93, 132-137. (number cited:23) doi:10.1016/S0924-4247(01)00639-2
73. Ai, D., Ding, P.-P., and Chen, P. H., 2001, “An Improved Data Reduction Method on the Applications of Transient Liquid Crystal Thermography on Film Cooling Effectiveness Measurements,” Int. J. Heat and Mass Transfer, Vol. 44, 1379-1387. (number cited:7)
74. Ai, D., Ding, P.-P., and Chen, P. H., 2001, “The Selection Criterion of Injection Temperature Pair for Transient Liquid Crystal Thermography on Film Cooling Measurements,” Int. J. Heat and Mass Transfer, Vol. 44,1389-1399.(number cited:11) doi:10.1016/S0017-9310(00)00153-8?
75. Chen, Ping-Hei, Min-Sheng Hung, and Pei-Pei Ding, 2001, “A Transient Method Using Liquid Crystal For Film Cooling Over A Convex Surface,” Int. J. Rotating Machinery, Vol. 7, No. 3, pp. 153-164. (EI Journal) doi:10.1155/S1023621X01000148
76. Sheu, T.-S., Ding, P.-P., Lo, I.-M., and Chen, P. H., 2000, “Effect of Surface Characteristics on Capillary Flow in Triangular Microgrooves,” Experimental Thermal and Fluid Science. Vol. 22, pp. 103-110. (number cited:3)
77. Chen, Ping-Hei, Pong, Shing-Ya, Liu, Shing-I, Chang, S.-L., Wu, T.-I., and Cheng, Sheng-Her, 1999, “Pressure Response and Droplet Ejection of a Piezoelectric Inkjet Printhead,” Int. J. Mech. Science., Vol. 41, No. 2, pp. 235-248. (number cited:17, two quoted it with missing Int.) doi:10.1016/S0020-7403(98)00058-7
78. Chen, P. H., and Miao, J.-M., 1999, “Endwall Effect on the Mass Transfer in a Square Open Cavity,” Int. Comm. Heat Mass Transfer, Vol. 26, No. 2, pp. 165-176. (number cited:2)
79. Chang, Z. C., Hung, M. S., Ding, P. P., and Chen, P. H., 1999, “Experimental Evaluation of Thermal Performance of Gifford-McMahon Regenerator Using an Improved Single-Blow Method with the Effect of Radial Conduction,” Int. J. of Heat Mass Transfer, Vol. 42, No. 3, pp. 405-413. (number cited:2)
80. Chen, P. H., Chen, W. C., Ding, P. P., and Chang, S. L., 1998, “Droplet Formation of a Thermal Sideshooter Inkjet Printhead,” Int. J. Heat Fluid Flow, Vol. 19, No. 4, pp.382-390. (number cited:9) doi:10.1016/S0142-727X(98)10007-3?
81. Chang, Z. C., and Chen, P. H., 1998, “Flow Channeling Effect on the Regenerators Thermal Performance,” Cryogenics, Vol. 38, No. 2, pp. 191-196. (number cited:2)
82. Yen, J. Y., Chen, P. H., and Chen, C. L., 1997, “An Artificial Neural Network for Double Exposure PIV Image Analysis,” Experiments in Fluids, Vol. 24, pp. 373-374. (number cited:1)
83. Chen, P. H., Chen, W. C. and Chang, S. H., 1997, “Visualization of Droplet Ejection Process of a Thermal Ink Jet Printhead,” J. Flow Visual. Image Proc., Vol. 4, pp. 119-128. (EI Journal)
84. Chen, P.H., Chen, W. C., and Chang, S.-H., 1997, “Bubble Growth and Ink Ejection Process of a Thermal-Bubble-Jet Printhead,” Int. J. Mech. Sci., Vol. 39, No. 6, pp. 683-695. (number cited :36) doi:10.1016/S0020-7403(96)00067-7
85. Chen, P.H., Lee, D. S., and Miao, J. M., 1997, “Noise Reduction of a Cross-Flow Fan,” J. of Chin. I. Eng., Vol. 20, No. 3, pp. 265-273. (cited number:3)
86. Chen, P.-H., and Chang, Z.-C., 1997, “Measurements of Thermal Performance of Regenerators using an Improved Single-Blow Technique Including the Effects of Non-Adiabatic Side Wall and Axial Conduction,” Int. J. Heat and Mass Transfer, Vol. 40, No. 10, pp. 2341-2349. (number cited:5)
87. Chen, P.H., Lee, D.S., and Chen, S. L., 1996, “Effects of Housing on the Fan Performance and Acoustic Noise of Cross-Flow Fan,” J. CSHARE, (in Chinese) Vol. 5, No. 3, pp. 46-61.
88. Chen, P.H., Miao, Z.M., and Jiang, C.-S., 1996, “Novel Technique for Measuring the effect of temperature on the Diffusion Coefficient of Naphthalene in Air,” Rev. Sci. Inst., Vol. 67, No. 8, pp. 2831-2836. (number cited:2) NSC-82-0401-D002-030
89. Chen, P.H. and Miao, J. M., 1996, “Effect of Upstream Wake on Shower-head Film Cooling” Int. J. Rotating Machinery, Vol. 2, pp. 269-280. NSC-82-0401-D002-030. (EI Journal) doi:10.1155/S1023621X96000140
90. Chen, P. H., and Chang, Z.-C., 1996, “Measurements of Thermal Performance of the Regenerator of a Cryocooler with High NTU Value,” Proc. Instn Mech. Engrs, Part C: J. of Mech. Eng. Sci., Vol. 210, pp. 341-352. (number cited:3)
91. Chen, P.-H., Ai, D., and Chen, S.-L., 1996, “Investigation of the Ventilation Performance in an air-conditioned Room with Telecommunication Units,” Energy Quarterly (in Chinese), Vol. 26, No. 2, pp. 61-76.
92. Chen, P.-H., and Huang, K.-C., 1996, “Convective Transport Phenomena in an Impulsively Started Lid-Driven Open Cavity,” Numerical Heat Transfer, Part A: Applications, Vol. 29, No. 5, pp. 511-524. (number cited:3) NSC-81-0401-E002-526.
93. Chen, P.-H., and Chang, Z.-C., 1996, “An Improved Model for the Single-Blow Measurement Including the Non-Adiabatic Side Wall Effect,” Int. Comm. Heat and Mass Transfer, Vol. 23, No. 1, pp. 55-68. (number cited:4) doi:10.1016/0735-1933(95)00084-4???
94. Chen, P. H., Chang, Z.-C., and B-J. Hwang, 1996, “Effect of Oversize in Wire-Screen Matrix to the Matrix-Holding Tube on the Regenerator Thermal Performance,” J. of Cryogenics, Vol. 36, No. 5, pp. 365-372. (number cited by journal paper:7, one with the wrong page number)
95. Chen, P. H., and Miao, J.-M., 1996, “Film Cooling Effectiveness over a Shower-Head Film-Cooled Turbine Blade,” Bulletin of the College of Engineering, N. T. U, No. 66, Feb., pp. 51 - 69.
96. Chen, P.-H., 1996, “Effect of Depth-to-Width Ratio on the Transient Mass/Heat Transfer in a Open Cavity,” J of The Chin. Inst. for Engineers, Vol. 19, No. 2, pp. 145-154. NSC-82-0401-D002-030. (number cited:2)
97. Chen, P. H., and Miao, J.-M., 1996, “Mass Transfer over a Film-Cooled Turbine Blade,” Int. J. of Rotating Machinery, Vol. 2, No. 4, pp. 221-236. NSC-82-0401-D002-030. (EI Journal)
98. Chen, P.-H., and Lee, D.-S., 1995, “Effect of Tongue Shape on the Performance Curve and the Acoustic Noise of Cross-Flow Fan,” J. of The Chin. S. Mech. Eng., Vol. 16, No. 5, pp. 445-455. (SCI Journal) (1996 CSME best paper award.)
99. Chen, P.H., and Goldstein, R.J., 1992, “Convective Transport Phenomena on the Suction Surface of a Turbine Blade Including the Influence of the Secondary Flows near the EndWall,” ASME J. of Turbomachinery, Vo1. 114, pp.776-787. (number cited:16 )
100. Chen, P.H. and Wang, W.L., 1991, “Roll Up of A Viscous Vortex Sheet,” J of The Chin. I. for Engineers, Vol. 14, pp.507-517. (SCI Journal)
101. Chen, P.H., and Goldstein, R.J., 1990, “Local Mass (heat) Transfer Distribution over the Concave Surface of a Turbine Blade,” J. of The Chin. S. Mech. Eng., Vol.11, No.2, pp.109-120. (SCI Journal)
102. Chen, P.H. and Wung, P.H., 1990, “Diffusion Coefficient of Naphthalene in Air,” J. of The Chin. I. Chem. E., Vol. 21, No. 3, pp.161-166. (SCI Journal)
103. Goldstein, R.J. and Chen, P.H., 1987, “Film Cooling on a Turbine Blade with Injection Through Two Rows of Holes in the Near-Endwall Region,” ASME J. of Turbomachinery, Vo1. 109, pp.588-593. (SCI Journal, cited number :8)

 

B. Conference Papers
(International Conference papers)

1. Yang, F.-L. Lee, D.S. Lee, and Chen, Ping-Hei, 2009, "Taiwan Accreditation Program For RFID Engineers", Proceedings of APEEC 2009, The ASME Asia-Pacific Engineering Education Congress, 2009
2. Tsai, Tsung-Han, Chen, Ping-Hei, liu, Dar-Sun, Yang, Chin-Ting, 2009, “Enhancement of Mixing Performance of Water Solutions in a Micro-mixer with Immiscible Ferrofluid,” 2009 4th IEEE International Conference on Nano/Micro Engineered and Molecular Systems, pp. 69-74.
3. Tsai, Tsung-Han, Kuo, Long-Sheng, Chen, Ping-Hei, and Yang, Chin-Ting, 2009, “Thermal Conductivity of Nanofluid with Magnetic Nanoparticles,” PIERS Online, Vol. 5, No. 3, 2009, pp: 231-234.
4. Chen, Ping-Hei, liu, Dar-Sun, Tsai, Tsung-Han, Kuo, Long-Sheng, Yang, Chin-Ting, 2008, “Application of nanofluids in microfluidic devices,” Proceedings of the 6th International Conference on Nanochannel, Microchannel, and Minichannels, PTS A AND B, pp. 1669-1675 (Keynote paper) (SCI,EI Conference Paper)
5. Maio, Z, M., Chen, Ping-Hei, and Chang, B. H., 2007, “Numerical Predictions of a flow field in a Hydrodynamic Journal Bearing with Herringbone Grooves,” The 2007 Asia Symposium Computational Heat Transfer and Fluid Flow, Xian, China.
6. Chien, Jui-Hung, Chen, Ping-Hei, Chang, Chih-Hsiang, 2007, “A Novel Biochip Chip Using Radio-frequency Technology,” Proceeding of 21st Symposium of The Protein Society, Boston, Massachusetts, USA, Paper No. 134.
7. Chen, Ping-Hei, 2007, “Electrical Detection of Biomolecules Using Nanoparticles,” ECI Conference on "Nanoscience and Nanotechnology for Biological/Biomedical/Chemical Sensing", 3-8 June 2007, Hong Kong, Paper No. 168.
8. Chen, Ping-Hei, Yang, Cheng-Hao, Tsai, Chien-Ying, Chang, Tien-Li, Hsu, Wei-Cheng, Chen, Ta-Chih, 2007, “Young's Modulus of High Aspect Ratio Si3N4 Nano-thickness Membrane”, 2007 7th IEEE Conference on Nanotechnology, Vol. 1-3, pp.? 1071-1074.
9. Chien, J. H., Chang, C. H., Hsieh, Y. F., Lee, D.S., Kuo, L. S, Yang, C. H., Yang, C. R., Chou, W. P., and Chen, P. H., 2007, “A Dual-Mode Radio Frequency DNA Sensor”, 2007 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems, Vol., 1-3 ??pp 250-254. (SCI,EI Conference Paper)
10. Chiang, T.C., Chang, C.W., Kuo, L.S., and Chen, P. H., 2007, “Experimental investigation of loop heat pipe with nano-ferrofluid,” Proceedings of the International Conference on Integration and Commercialization of Micro and Nanosystems 2007, p 813-818. (EI Conference Paper)
11. Chang, C.W., Tsai, T. H., Chiang, T.C., Wang, P. Y., Hsieh, Y. F., Chang, C. H., and Chen, P. H., 2007, “Fast Mixing of Nanofluids in Microchannel,” Proceedings of the International Conference on Integration and Commercialization of Micro and Nanosystems 2007, 2007, p 61-64. (EI Conference Paper)
12. Chang, C.-W., Cheng, Y.-T. Tsai, C.-Y., Chien, J.-H., Wang, P.-Y, and Chen, P.-H., 2006, “Periodic flow patterns of the magnetic fluid in microchannel,” Proceedings of International Conference on Magnetism, Tokyo.
13. Chen, Ping-Hei, Chang, Tien-Li, and Tsai, Chien-Ying, 2006, “Ultrasensitive Electric Detection of DNA and Protein by using Self-assembled Multilayer Nanoparticles and Nanogap Electrodes” ISMNT-2, Tsin-Chu, Taiwan. (Invited Paper)
14. Cheng, Yi-Ting, Tsai, Chien-Ying, and Chen, Ping-Hei, 2006, “A CMOS Biochip for Electrical Detection of DNA with an Embedded Current Amplifier Circuit,” 2006 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems, Vol., 1-3 ??pp. 1-5. (SCI,EI Conference Paper)
15. Chien, J. H., Tsai, J. Y., Cheng, Y. T., Yang, C. R., Wang, P. Y., Chang, T. L., Lee, D. S., Chang, C. W., Chou, W. P., Chiang, C. C., Lee, Y. W., and Chen, P. H., 2006,“ARFID Tag Based Remote DNA Sensing System,” 2006 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems, Vol., 1-3 ??pp. 278-282. (SCI,EI Conference Paper)
16. Chien, J. H., Lee, D.S., Chou, W. P., Wang, P. Y., Yang, C. R., Wu, M. H., Tsai, C. Y., Chang, T. L., Lee, Y. W., Cheng, Y. T., and Chen, P. H., 2006, “Simultaneous Quantification for Hepatitis B Virus and Hepatitis C Virus Using Real-Time PCR Lab-on-a-chip,” 2006 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems, Vol., 1-3 ??pp. 274-277. (SCI,EI Conference Paper)
17. Chang, Tien-Li, Tsai, Chien-Ying, Uppala, Ramesh, Chen, Chun-Chi, Lin, Chun-Hung, Chen, Ping-Hei, 2005, “Ultrasensitive Detection of Nanoparticle-Based Bio Bar-Code DNA Sensor by Using Nano-Gap Electrodes,” Digest of Papers - Microprocesses and Nanotechnology 2005: 2005 International Microprocesses and Nanotechnology Conference, 2005, p 210-211. (EI Conference Paper)
18. Lee, D. S., Chien, J.H., Wu, M.-H., and Chen, P. H., 2005, “Development of a Novel Real-Time PCR Machine,” Progress in Biomedical Optics and Imaging - Proceedings of SPIE, v 5864, Novel Optical Instrumentation for Biomedical Applications II, 2005, p 1-10. (SCI,EI Conference Paper)
19. Chang, Tien-Li, Tsai, Chien-Ying, Sun Chih-Chen, Uppala, Ramesh, Chen, Chun-Chi, Lin, Chun-Hung, Chen, Ping-Hei, 2005, “ Electrical Detection of DNA Using Gold and Magnetic Nanoparticles and Bio Bar-Code DNA between Nanogap Electrodes,” 31th International Micro- and Nano- Engineering Conference (MNE2005), Vienna, Austria, 3-o_07.
20. Chien, H. T., Chang, C. W., Chen, P. H., and Ding, P. P., 2004, “Improvement on thermal Performance of Circular Heat Pipe with Nanofluid,” 13th International Heat Pipe Conference, Shanghai, China, pp. 134-136.
21. Tsai, Chien-Ying, Chang, Tien-Li, Uppala, Ramesh, Chen, Chun-Chi, Ko, Fu-Hsiang, Chen, Ping-Hei, 2004, “Electrical Detection of Protein Using Gold Nanoparticles and Nanogap Electrode,” Microprocesses and Nanotechnology 2004, pp. 244-245. (EI Conference Paper)
22. Tsai, Chien-Ying, Chang, Tien-Li, Chen, Chun-Chi, Ko, Fu-Hsiang, Chen, Ping-Hei, 2004, “An Ultra Sensitive DNA Detection by Using Gold Nanoparticle Multilayer in Nano-Gap Electrodes,” Digest of Papers - Microprocesses and Nanotechnology 2004, Digest of Papers - Microprocesses and Nanotechnology 2004, 2004, p 244-245. (EI Conference Paper)
23. Lee, Chi-Yuan, Chang, Pei-Zen, Wu, Tsung-Tsong, Chen, Yung-Yu, Cheng, Ying-Chou, Wang, Xuan-Yu, Chen, Wenu-Jong, Pao, Shih-Yung, Chen, Ping-Hei, Xiao, Fu-Yuan, and Yen, Kai-Hsiang, 2004, “Processing of Li-doped ZnO Piezoelectric Films on Silicon for Surface Acoustic Wave Sensor Application” , APCOT MNT 2004, Sapporo, Japan, Vol. 3-1, pp. 719-724.
24. Cheng, Y.-T., Pun, C.-C., Tsai, C.-Y., and Chen, P.-H., 2004, “An Array-Based CMOS Biochip for Electrical Detection of DNA with Multilayer Self-assembly Gold Nanoparticles”, APCOT MNT 2004, Sapporo, Japan, Vol. 3-1, pp. 183-188.
25. Cheng, Ying-Chou, Dai, Ching-Liang, Lee, Chi-Yuan, Chang, Pei-Zen, Chen, Ping-Hei, 2004, ”Fabrication of MEMS Mirror Switches by the Standard CMOS Process” , APCOT MNT 2004, Sapporo, Japan, Vol. 3-1, pp. 945-950.
26. Chang, P.-Z., Lee, C.-Y., Wu, T.-T., Chen, Y.-Y., and Chen, P. H., 2004, “In-Situ Monitoring of Silicon Membrane Thickness During Batch Chemical Etching Using a Novel Micromachined Acoustic Wave Sensor,” The first International Symposium on Micro & Nano Technology, ISMNT-1, Hawaii, USA, I-02-02.
27. Tsai, C.-Y., Chen, C.-C., Tsai, Y.-H., Pun, C.-C., Ko, F.-H., and Chen, P.-H., 2004, “Room-Temperature Operation of Coulomb Blockade Made with the Self-Assembly Gold Particle Nanostructure by using DNA Hybridization,” The first International Symposium on Micro & Nano Technology, ISMNT-1, Hawaii, USA, XVI-3-04.
28. Cheng, Ying-Chou, Lee, Chi-Yuan, Chen, Wen-Jong, Dai, Ching-Liang, Chang, Pei-Zen and Chen, Ping-Hei, 2004, “Fabrication of the Free Space Optical Switch Array Using the CMOS Process,” The 1st International Symposium on Micro & Nano Technology, Honolulu, Hawaii, USA, I-02-01.
29. Lee, Chi-Yuan, Wu, Tsung-Tsong, Chen,, Yung-Yu, Cheng, Ying-Chou, Chen, Wen-Jong Pao, Shih-Yung, Chang, Pei-Zen, Chen, Ping-Hei, Yen, Kai-Hsiang, and Xiao, Fu-Yuan, 2004, “Real Time Monitoring of Thickness of Silicon Membrane during Wet Etching Using a Novel Surface Acoustic Wave Sensor,” MEM, MOEMS, and Micromachining, Vol. 5455, pp. 319-330. (SCI, EI Conference Paper)
30. Cheng, Ying-Chou, Lee, Chi-Yuan, Chen, Wen-Jong, Dai, Ching-Liang, Chang, Pei-Zen and Chen, Ping-Hei, 2004, “Fabrication of Micro-Switch by Post-CMOS Micromachining Process,” MEM, MOEMS, and Micromachining, Vol. 5455, pp. 274-283 (SCI, EI Conference Paper)(number cited:1)
31. Wu, W.F., Chen, P.H., Yen, J.Y. and Chang, S.H., 2003, “MEMS and Nano-Technology Related Researches at Mechanical Engineering Department of National Taiwan University”, Proceedings of the Second Japan-Taiwan Workshop on Mechanical and Aerospace Engineering, pp. 92-103, Tokyo & Sendai, Japan.
32. Pang, C.-C., Tsai, C. Y., Cheng, Y. C., Tsai, Y. H., and Chen, P. H., Chang, P. Z., 2003, “Electrical Detection for DNA Identification with Nanoparticle Probes in an Array-based CMOS Biochip,” Proceedings of Micro.tec 2003, pp. 567-572, Munich, Germany.
33. Chen, P. H., Jeng, S. T., Ding, P. P., 2003, “Improvement on Thermal Performance of a Circular Heat Pipe with Nanofluid,” MST2003, Germany.
34. Lee, C.-Y., Wu, T.-T., Chen, Y.-Y., Pao, S.-Y., Cheng, Y.-Chou C., Chang, P.-Z., Chen, P. H., 2003, “In-Situ Monitoring of Thickness of Quartz Membrane During Batch Chemical Etching Using a Novel Micromachined Acoustic Wave Sensor,” Proceedings of the 2003 IEEE International Frequency Control Symposium & PDA Exhibition Jointly with 17th European Frequency and Time Forum,???pp. 993-1000. (SCI, EI Conference Paper)
35. Chien, H. T., Tsai, C. I., Chang, C. W., Chen, P. H. and Chen, P. Y., 2003, “Improvement on Thermal Performance of a Disk-Shaped Miniature Heat Pipe with Nanofluid,” Fifth International Conference on Electronic Packaging Technology, Proceedings,??pp.389-391.??(SCI, EI Conference Paper) (number cited: 1)
36. Ding, Pei-Pei, and Chen, P. H., 2003, “SU-8 Process for Biomedical Inspection Micro-Carriers”, DTIP 2003: Design, Test, Integration and Packaging of MEMS/MOEMS 2003, pp. 373-377.????(SCI, EI Conference Paper)
37. Chen, Y. C., H. P. Chen, Liao, Y. Y., Lin. H. T., Chou, L. H., Kuo, J. S., Chen, P. H., Lung. S. L., and Liu, R., 2003, “A High Performance 180 nm Nonvolatile Memory Cell Using Phase Change Sn-Doped Ge2Sb2Te5 Chalcogenide,” 2003 International Symposium on VLSI Technology, Systems, and Applications, Proceedings of technical paper, pp. 32-35. (SCI, EI Conference Paper)
38. Cheng, Y., Ding, P. P., Sheu, T.S., Shew, B. Y., Chen, P. H., 2001, “High Performance Flat Miniature Heat Pipes Fabricated by UD-LIGA Process”, HARMST ’01, Book of Abstracts, p. 245~246, Baden-Baden, June, 2001.
39. Chen, P. H., Hsieh, C. M., Peng, H.-Y., and Chyu, M. K., 2000, “Precise Mask Alignment Design to Crystal Orientation of (100) Silicon Wafer Using Wet Anisotropic Etching,” Proceedings of SPIE - The International Society for Optical Engineering, Vol., 4174, pp. 462-466. (EI Conference Paper)(number cited:2)
40. Chen, P. H., Min-Sheng Hung, and Pei-Pei Ding, 2000, “Film Cooling Performance on Curved Walls with Compound Angle Hole Configuration for the film cooling,” Turbine 2000, Cesme, Turkey 13-18 August.
41. Chen, Ping-Hei, Min-Sheng Hung, and Pei-Pei Ding, 2000, “A Transient Method Using Liquid Crystal For Film Cooling Over A Convex Surface,” The 8th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery, Honolulu, Hawaii, USA, March 26-30, 2000.
42. Chen, P. H., Ding, P.-P., Hung, M.-S., and Shih, P.-C., 1999, “Film Cooling over a Concave Surface through a Row of Expanded Holes,” ASME Paper No. 99-GT-33.
43. Sheu, T.-S., Ding, P.-P., and Chen, P. H., 1999, “Numerical and Experimental Study of Capillary Forces in Trapezoid Microgrooves,” MicrofluidicDevices and System II, v 3877, 1999, pp. 295-302. (SCI, EI Conference Paper)
44. Chen, P. H., and Miao, Z-M., 1998, “Effects of Film Cooling on the Transport Phenomena over a Turbine Blade Near the Endwall Region,” American Society of Mechanical Engineers, Heat Transfer Division, (Publication) HTD, Vol. 361-3, pp. 411-424 (EI Conference Paper)
45. Chen, P. H., Ai, D., and Lee, S.-H., 1998, “Effects of Compound Angle Injection on Flat-Plate Film Cooling through a Row of Conical Holes,” ASME Paper No. 98-GT-459. (EI Conference Paper)
46. Chen, P.-H., Chen, W.-C., and Chang, S.-H., 1997, “Visualization of Droplet Ejection Process of a Thermal Bubble Ink Jet Printhead,” Flow Visualization and Image Processing 1997, edited by S. Mochizuki, Honolulu, Hawaii, Vol. 1, pp. 132-137.
47. Chen, P.H. and Miao, Z.M., 1996, “Effect of Upstream Wake on Shower-head Film Cooling” The 9th International Symposium on Transport Phenomena in Thermal-Fluids Engineering, Singapore, pp. 1066-1072.
48. Chen, P.H., Chen, J.J., Miao, Z.M., Chou, S.F., and Liu, M., 1994,11,“The Effect of Upstream Conditions on the Convective Transport Phenomena over a Turbine Blade,” in Heat Transfer in Gas Turbine, HTD-Vol. 300, edited by M. K. Chyu and N. V. Nirmalan, ASME, New York, pp. 31-44. (EI conference papers)
49. Chen, P.H., Miao, Z.M., and Chen, J.W., 1994,11, “Convective Transport Phenomena for Film Cooling,” in Heat Transfer in Gas Turbine, HTD-Vol. 300, edited by M. K. Chyu and N. V. Nirmalan, ASME, New York, pp. 55-62. (EI conference paper)
50. Chen, P.H., Chen, C. H., Chen, J. J., Chen, J.W. and Liu, M., 1992, 04, “Three-Dimensional Transport Phenomena of a Turbine Blade in a Flow Region Without the Influence of Endwall,” in Transport Phenomena and Dynamics of Rotating Machinery, Edited by J. H. Kim and W. -J. Yang, Hemisphere Publishing Company, New York, pp. 423-432
51. Chen, P.H. and Goldstein, R.J., 1988, "Convective Transport Phenomena over a Turbine Blade," in Transport Phenomena in Thermal Control., edited by G.-J. Hwang, Hemisphere Publishing Coop., New York, pp. 267-294. (related to Ph. D. Thesis)


b.國內會議論文
1. Ting Huang, Cheng-Hao Yang, Pei-Shan Lee and Ping-Hei Chen, 2008, "Study of Micro/Nano Structure Effects on Hydrophobic Surfaces with Hight Transparency," Proceedings of the 25th CSME National Conference on Mechanical Engineering, Changhua, Taiwan, E02-22
2. Yung-Lang Yang, Tien-Li Chang, Ta-Hsin Chou, Chih-Chieh Su, Ping-Hei Chen, 2008, “Fabrication of Periodic Nanostructures Using Controlled Laser Interference Design,” Proceedings of the 25th CSME National Conference on Mechanical Engineering, Changhua, Taiwan, E02-25.
3. Cheng-Hao Yang, Ping-Hei Chen, Po-Ya Wang, Chii-Rong Yang, 2008, “A wireless flexible wetness sensor using RFID technique,” 2008 RFID Conference,?Taipei, Taiwan, B3-1, No. 32.
4. 張智翔,劉達生,郭龍生,陳炳煇, 2007,“利用奈米磁性流體提升混合效能之半主動式微型混合器”,中國機械工程學會第二十四屆學術研討會,桃園,台灣, E2-0015 .
5. Dar-Sun Liou, Tien-Li Chang, Ping-Hei Chen, 2007,“Rapid Mixing in Y-Type Microchannel Using Magnetic Nanofluids”,中國機械工程學會第二十四屆學術研討會,桃園,台灣, E1-0030.
6. Dar-Sun Liou, Tien-Li Cheng, Ping-Hei Chen,2007, “Biocompatible Magnetic Nanofluids in Biological Microfluidic Mixing Process”,長庚大學第十二屆生化工程研討會,林口,台灣,P-I-15.
7. Tien-Li Chang, Chih-Hsiang Chang, Chih-Chen Sun, Chun-Chi Chen, Chien-Ying Tsai, Yi-Fan Hsieh, Chun-Hung Lin, Ping-Hei Chen, 2006, “An Ultrasensitive Bar-Code DNA Amplifying DNA Sensing System for DNA Detection with Self-Assembly Gold Nanoparticle and Nanogap Electrode,” 13th Symposium on Nano Device Technology (SNDT 2006), Hsinchu, Taiwan, No.T2-03.
8. Tien-Li Chang, Chia-Je He, Chin-Yun Tsai, Chien-Ying Tsai, Chun-Chi Chen, Da-Sheng Lee, Chun-Hung Lin, Ping-Hei Chen, 2006, “Electrical Detection of Protein Sensing System Using Nanogap Electrodes and Multilayer Gold Nanoparticles Labels,” 13th Symposium on Nano Device Technology (SNDT 2006), Hsinchu, Taiwan, No.T2-02.
9. Tien-Li Chang, Chun-Chi Chen, Chien-Ying Tsai, Fu-Hsiang Ko, Ping-Hei Chen, 2005, “ Ultra Sensitive DNA Detection Sensor with Multilayer Self-Assembly Gold Nanoparticle in Nanogap Electrodes,” 12th Symposium on Nano Device Technology (SNDT 2005), Hsinchu, Taiwan, 3A-5, pp.111-114
10. Jui-Hung Chien, Yi-Ting Cheng and Ping-Hei Chen, 2005, “A Novel Fluorescence Detection System for Multiple PCR,” Proceeding of 2005 International Symposium on Nano Bioengineering (ISNB2005) - Quantum Dots for Live Cells, in vivo Imaging, and Diagnostics, Chung-Li, Taiwan, Nano Biosensors - PS13.
11. Yi-Ting Cheng, Jui-Hung Chien, Chien-Ying Tsai and Ping-Hei Chen, 2005, “Electrical Detection Method for Single Basepair Mismatch Using Multilayer Gold Nanoparticle Probes by CMOS Fabrication,” Proceeding of 2005 International Symposium on Nano Bioengineering (ISNB2005) - Quantum Dots for Live Cells, in vivo Imaging, and Diagnostics, Chung-Li, Taiwan, Nano Biosensors - PS17.
12. Tien-Li Chang, Chien-Ying Tsai, Chih-Hsiang Chang, Yi-Fan Hsieh, Chih-Chen Sun, Po-Yen Wang, Huang-Ching Chien, Ping-Hei Chen, 2005, “Electrical Detection of Protein Sensor with Multilayer Gold Nanoparticles in Nanogap Electrodes,” Proceeding of 2005 International Symposium on Nano Bioengineering (ISNB2005) – Quantum Dots for Live Cells, in vivo Imaging, and Diagnostics, Chung-Li, Taiwan, Nano Biosensors – PS18.
13. Jui-Hung Chien, Dar-Sun Liou, Tien-Li Chang, Chien-Ying Tsai, Yi-Fan Hsieh, Chih-Hsiang Chang, Ya-Wei Lee, Chih-Wei Chang, Po-Yen Wang, Ping-Hei Chen, 2005, “Fluorescence Signal Processing Method for Method for Quantitative Multiple Polymerase Chain Reaction,” Annual Symposium of the Biomedical Engineering Society (BME2005), Chung-Li, Taiwan, P2-012.
14. Tien-Li Chang, Chien-Ying Tsai, Yi-Fan Hsieh, Chih-Hsiang Chang, Jui-Hung Chien, Dar-Sun Liou, Ya-Wei Lee, Chih-Wei Chang, Po-Yen Wang, Ping-Hei Chen, 2005, “Development of a Novel Ultrasensitive Nanoparticle-Based DNA Biochip for Electrical Detection,” Annual Symposium of the Biomedical Engineering Society (BME2005), Chung-Li, Taiwan, NSC-P-015.
15. Tien-Li Chang, Chien-Ying Tsai, Chun-Chi Chen, Chun-Hung Lin, Fu-Hsiang Ko, Ping-Hei Chen, 2005, “Electrical Detection of Biomolecular Interactions between Proteins Using Gold Nanoparticle Probes in Nanogap,” Proceeding of 2005 International Symposium on Nano Science and Technology (ISNST2005), Tainan, Taiwan, PF007.
16. Tien-Li Chang, Chien-Ying Tsai, Ramesh Uppala, Chih-Chen Sun, Chun-Chi Chen, Chun-Hung Lin, Fu-Hsiang Ko, Ping-Hei Chen, 2005, “ An Array-based Biochip for Electrical Detection of Protein with Multilayer Gold Nanoparticles between Nanogap Electrodes,” 9th Nano Engineering and Micro Systems Technology Conference (NMC2005), Tainan, Taiwan, A15.
17. Ping-Hei Chen, Ramesh Uppala, Chih-Wei Chang, 2005, “Thermal Analysis of Closed Loop Pulsating Heat Pipe,” Proceedings of the 22st CSME National Conference on Mechanical Engineering, Chung-Li, Taiwan, A8-058.
18. Wei-Ting Chen, Yi-Ting Cheng, Ping-Hei Chen, 2005 “A Novel CMOS Sensor Chip for Measuring Thermal Conductivity of Liquids” 29th National Conference on Theoretical and Applied Mechanics, Hsinchu, Taiwan, M020.
19. Ya-Wei Deng, Tien-Li Chang, Ping-Hei Chen, 2005, “Development of a Novel High Resolution CMOS Flow Sensor,” 29th National Conference on Theoretical and Applied Mechanics, Hsinchu, Taiwan, M001.
20. Tien-Li Chang, Chien-Ying Tsai, Ramesh Uppala, Chun-Chi Chen, Chun-Hung Lin, Fu-Hsiang Ko, Ping-Hei Chen, 2005, “ Electrical Detection of Protein with Multilayer Gold Nanoparticles between Nanogap Electrodes,” Taiwain Nano Tech (TNT2005) – National Nanotechnology Program, Taipei International Convention Center, Taiwan, A-04.
21. Tien-Li Chang, Chien-Ying Tsai, Ramesh Uppala, Chun-Chi Chen, Chun-Hung Lin, Fu-Hsiang Ko, Ping-Hei Chen, 2005, “Ultra Sensitive Detection for a Coulomb Blockade Sensor Fabricated by Self-Assembled Gold Nanoparticles utilizing DNA Hybridization,” Taiwain Nano Tech (TNT2005) – National Nanotechnology Program, Taipei International Convention Center, Taiwan, A-03.
22. Chien-Ying Tsai, Tien-Li Chang, Chun-Chi Chen, Fu-Hsiang Ko, Ping-Hei Chen, 2004, “Coulomb Blockade Sensor by Using Gold Nanoparticles Multilayer Self-Assembled with DNA Hybridization”, 第八屆奈米工程暨微系統技術研討會,新竹,台灣, 10a-2
23. 李其源、張培仁、吳政忠、陳永裕、陳炳煇、黃家烈、龔育諄、莊志偉、謝箕烈, 2004 “濕蝕刻石英晶片厚度即時監控之新穎方法”, 中國機械工程學會第二十一屆學術研討會,高雄,台灣, pp.6493-6498
24. 吳孟勳、陳炳煇, 2004 “新型複式即時定量聚合連鎖反應檢測機台開發與研究”, 中國機械工程學會第二十一屆學術研討會,高雄,台灣, pp.6463-6468
25. 張天立、鄭伊廷、蔡建瑩、陳炳煇, 2004 “金奈米粒子形成與機制之研究”, 中國機械工程學會第二十一屆學術研討會,高雄,台灣, pp.5519-5524
26. Chien-Ying Tsai, Tien-Li Chang, Yi-Ting Cheng, Chun-Chi Chen, Fu-Hsiang Ko, Ping-Hei Chen, 2004 “Room Temperature Operation of Coulomb Blockade Sensor Fabricated by the Self-Assembled Gold Nanoparticles utilizing DNA Hybridization”, 中國機械工程學會第二十一屆學術研討會,高雄,台灣, pp.5513-5518
27. 李其源, 張培仁, 吳政忠, 陳永裕,陳炳煇, 黃家烈, 龔育諄, 謝箕烈,2004,“濕蝕刻矽晶片厚度即時監控之新穎方法,”第八屆奈米工程暨微系統技術研討會,新竹,台灣, pp.7a-4.
28. 陳炳煇, 何正義,2004, “墨滴噴射成形的模擬技術”, 第十一屆全國計算流體力學學術研討會,台東,CFD11-0501.
29. 陳炳煇, 鄭伊廷,吳孟勳,2004, “機械的前景- (跨領域整合新興技術的系統研發)~以DNA檢測為兩個實施例,” 陸軍官校八十週年學術研討會暨國科會國防科技航空技術學門研究成果發表會,機械組, 高雄,台灣,pp. 1-6.
30. 陳炳煇, 蔡宜樺,蔡建瑩,2003, “應用奈米電極之單一核酸多型性生物晶片”, 中華民國第二十七屆全國力學會議,台南,台灣
31. Ying-Chou Cheng, Chi-Yuan Lee, Wen-Jong Chen, Ching-Liang Dai, Pei-Zen Chang and Ping-Hei Chen ,2003, “Design and Fabrication of Free-space Micro-optical Bench Based on CMOS-MEMS Process,” 第七屆奈米工程暨微系統技術研討會,pp. 171-174,台北,台灣。
32. 陳東升,陳炳煇, 2003, “台灣產學研發合模式的個案分析,” 2003國家科技政策與國際競爭力研討會,台北,台灣
33. C.-Y. Lee, T.-T. Wu, Y.-Y. Chen, Y.-C. Cheng, S.-Y. Pao, W.-J. Chen, P.-Z. Chang, Ping-Hei Chen, K.-H. Yen, F.-Y. Xiao, “A novel method for evaluating the thickness of silicon membrane using a saw sensor,” 第七屆奈米工程暨微系統技術研討會,台北,台灣, pp. 191-195.
34. C-C Chen, C-Y Tsai, C-C Pun, Y-T Cheng, D-S Lee, F-H Ko, P-H Chen, 2003,“Room temperature operation of Coulomb Blockade Made by the Self-Assembly Gold Particles Nanostructure utilizing DNA Hybridization,”第七屆奈米工程暨微系統技術研討會,台北,台灣, pp. 339-403.
35. C-Y Tsai, C-C Chen, C-C Pun, Y-T Cheng, D-S Lee, F-H Ko, P-H Chen, 2003, “Nano-Electrical DNA Detection with Multilayer Gold Nanoparticles,”第七屆奈米工程暨微系統技術研討會,台北,台灣, pp. 124-127.
36. 陳炳煇, 彭敬欽,鄭伊廷,2003, “電訊號檢測DNA之CMOS微陣列生物晶片”, 中國機械工程學會第二十屆學術研討會,台北,台灣, pp.391-396 .
37. 陳炳煇, 郭進順,許世瑋,楊啟榮,2003, “結合UV-LIGA及放電加工應用於動壓軸承止推閥之製作”, 中國機械工程學會第二十屆學術研討會,台北,台灣, pp.89-96.
38. 許綜升, 陳佩佩, 許博淵, 陳炳煇,2003, “鰭片型微熱管研製,” 中國機械工程學會第二十屆學術研討會,台北,台灣, pp.65-72.
39. 李其源, 吳政忠, 陳永裕, 鮑世勇, 鄭英周, 張培仁, 陳炳煇, 顏凱翔,2003, “使用表面聲波感測器用來感測石英晶片濕蝕刻後薄膜厚度之新穎方法,” 中國機械工程學會第二十屆學術研討會,台北,台灣, pp.1229-1236.
40. Ying-Chou Cheng, Chi-Yuan Lee, Wen-Jong Chen, Ching-Liang Dai, Pei-Zen Chang and Ping-Hei Chen, 2003, “微型光通訊元件之設計和製作” 第二十屆機械工程研討會,pp. 73-79,台北,台灣。
41. Chen, Ping-Hei, Tsai Chien-Ying, Tsai, Yee-Hua, Chen, Chun-Chi and Ko, Fu-Hsiang, 2003, “A study of electron-tunneling device by using gold nanoparrticles”, Symposium on Nano Device Technology 2003, Tsing-Chu City, Taiwan, A5-6..
42. 余文華,李達生,吳孟勳,陳炳煇,2002, “快速聚合酵素連鎖反應系統之開發與研究,” 第二十六屆全國力學會議論文集,雲林,A057.
43. Chen,P.H.,Chen, P. P., Pang, J. C., and Shu, S. W, 2002,“Fabrication of Microcubes for Protein Detection,” 2002 Conference for Nano/MEMS,Tainai.
44. 鍾耀光,李達生,陳炳煇, 2001,“壓電式微超音波感測器之製作與量測,” 第十八屆全國機械工程學術研討會論文集,台北市.
45. 鄭文峰,徐金城,陳炳煇, 2001,“微單孔氣泡成核流場觀測與壓力量測,” 第十八屆全國機械工程學術研討會論文集,台北市.
46. 許綜生,陳佩佩,邱琇苓,陳炳煇,2000, “新型毛細力驅動之微致動元件,” 第四屆奈米工程暨微機電技術研討會,新竹市
47. 謝嘉銘,彭新亞,陳炳煇, 2000,“TMAH非等向性濕蝕刻特性之研究,” 第十七屆全國機械工程學術研討會論文集,高雄市.
48. 羅益民,許綜升,陳炳煇, 2000,“梯形微溝槽內毛細流之熱傳分析,” 第十七屆全國機械工程學術研討會論文集,高雄市.
49. 陳炳煇, 1999,“新壓電式噴墨印頭的開發與模擬,”第七屆國科會工程處機械熱流學門研究成果研討會,新竹市,.
50. 涂金城,陳炳煇, 1999,“太陽能熱管集熱器儲熱槽之效能提升,” 第十六屆全國機械工程學術研討會論文集,新竹市, pp.691-697.
51. 陳炳煇,1998,“微機械在微流量量測之應用” 第六屆全國熱流會議,新竹市.
52. 陳炳煇,施柏州,苗志銘,艾迪,李思賢,1998,“冷卻孔幾何形狀與複合角效應對凹面上薄膜冷卻之影響” 第四十屆全國航空太空工程學術研討會論文集,台中市,pp. 275-282.
53. 陳炳煇, 1998,“汽渦輪引擎葉片全場熱傳量測,” 八十七學年度電力科技產學技術研究計畫期中報告研討會,台北市,pp. 130-137.
54. Chen, P. H., and Chen, W. C., 1998, “Mechanism for the break-off of an ejected droplet from a thermal sideshooter inkjet printhead,” The 1998 Int. Symp. On Fluid Mech. And Turbulence Modeling, Tainan, pp. 429-440.
55. 陳炳煇,王定三,戴昌賢,苗志銘,1998,“左壓電式噴墨列印頭內部流場之研究,”第一屆全國計算流體力學研討會論文集,桃園縣。
56. 張俊才,陳炳煇, 1998,“左心室輔助葉幫浦的外罩形狀對於流場以及效率的影響,” 第十五屆全國機械工程學術研討會論文集,新興工程技術,台南市,pp. 445-452.
57. 艾迪,陳炳煇,李思賢,1997,“複合噴射角度對平板薄膜冷卻之影響” 第三十九屆全國航空太空工程學術研討會論文集,台南市,pp.
58. 陳文成,陳炳煇,張所鈜,1997,“熱氣泡噴墨頭噴出墨滴串發展之過程” 第十一屆全國機械工程學術研討會論文集,熱流與能源,桃園縣,熱流,pp. 70-78.
59. 艾迪,陳炳煇,李思賢,1997,“圓錐型孔道對平板薄膜冷卻之影響” 第五屆全國熱流會議,台北市,pp. 13-17.
60. 劉欣怡,陳炳煇,,1997,“壓電噴墨印頭液滴形成過程之研究” 第五屆全國熱流會議,台北市,pp. 21-25.
61. 許坤銘,洪敏勝,陳炳煇,楊正華,梁增祥,1997,“非等管徑內平板測熱傳係數之影響” 第五屆全國熱流會議,台北市,pp. 17-20.
62. 許坤銘,洪敏勝,陳炳煇,楊正華,梁增祥,1997,“壓力梯度對管流內平板測熱傳係數之影響” 第十一屆全國機械工程學術研討會論文集,熱流與能源,桃園縣,pp. 229-235.
63. 劉欣怡,彭新亞,陳炳煇,張所鋐,伍次寅,鄭江河,1997,“壓電噴墨印表頭墨滴成形過程之觀測” 中華民國力學學會第二十一屆學術研討會論文集(二),台中市,pp. 71-78.
64. 陳炳煇,1997,“燃氣輪機之基礎研究(I)—冷卻孔幾何參數對薄膜冷卻的影響,” 第五屆國科會工程處機械熱流學門研究成果研討會,桃園縣,pp. 22-25.
65. 劉欣怡,彭新亞,陳文成,陳炳煇,張所鋐,伍次寅,鄭江河,1997,“壓電噴墨印表頭之噴墨研究,”次世代技術研討會論文集,新竹市,pp. 3-59-3-65.
66. 陳文成,陳炳煇,張所鋐,1996,“熱噴墨印表頭墨滴成形過程之觀測” 中華民國力學學會第二十屆學術研討會論文集,台北市,pp. 274-277.
67. Chen, P. H., and Lee, D.-S., 1996, “Effect of the Rotor Type and Tongue Clearance on the Acoustic Noise of the Cross-Flow Fan,” 1996 Taipei HVAC & R International Conference, Taipei, pp. 201-215.
68. Chen, P.H. and Miao, Z.M., 1996, “Effect of Upstream Wake on Convective Transport Phenomena over a Circular Cylinder with Stagnation Film Cooling” 第三十八屆全國航空太空工程學術研討會論文集,台北市,pp. 707-714.
69. 李達生,陳炳煇,陳希立,1996,“線流扇轉子設計與舌部設計對風扇性能及噪音之影響,” 第十屆全國機械工程學術研討會論文集,台北市,流力,pp. 281 - 289.
70. 簡清松,陳炳煇,張所鋐,1996,“熱氣泡噴墨頭熱應力分析,” 第十屆全國機械工程學術研討會論文集,固力,台北市,pp.128 - 133.
71. 陳炳煇,1996, “Effects of Rotor Type, Tongue Shape and Tongue Clearance on the Acoustic Noise of Cross-Flow Fan,” 第四屆全國熱流會議,台南市,pp. 21.
72. 陳炳煇,1996,“渦輪引擎葉片凸面分離過渡區之量測,” 第四屆國科會工程處機械熱流學門研究成果研討會,台北縣,pp. 99-103.
73. 陳炳煇,艾迪,陳希立, 1995, 12, “電信交換機房之空調特性研究,” 第二屆海峽兩岸冷凍空調學術暨技術研討會論文集,台北市.
74. Chen, P.H. and Miao, Z.M., 1995, 12, “Film Cooling Effectiveness over a Film-Cooled Blade: An Application of the Naphthalene Technique,” The 19th National Conference on Mechanics, Taiyuan County, pp. 129-138.編號:NSC-82-0401-D-002 -030.
75. 陳炳煇,苗志銘,1995, 9, “渦輪葉片之對流傳導現象,” 第三屆全國熱流會議 論文集,高雄市,pp. 291-297.編號:NSC-82-0401-D-002 -030.
76. Chen, P.H., Miao, Z.M., and Chan, H.C., 1994, 9, “Stagnation Film Cooling : Influence of Mainstream Turbulence on Heat (Mass) Transfer,” 第二屆全國熱流會議論文集,中壢市,pp. 55-57..編號:NSC-82-0401-D-002 -030.
77. Chen, P.H., Kuo, C.H., Myau, J. M., Shou, S.F., and Liu, M., 1993, 11, “The Convective Transport Phenomena over a Turbine Blade with a Multi-Row Showerhead Film Cooling,” Pacific International Conference on Aerospace Science and Technology, Tainan, Taiwan, pp. 1243-1250.
78. 郭志暐,陳炳煇,1993,8, “多排蓮蓬頭式薄膜冷卻對渦輪引擎葉片質 (熱)傳之影響," 第一屆全國熱流會議論文集,新竹市,pp. 55-57.計畫編號:NSC-80-0210-D-002 -37
79. 張瑞騏,陳炳煇,1992,11, “考慮管壁吸熱之單吹測試法,"第十二屆全國太陽能學術研討會論文集,台中市,pp. 63-70.
80. 陳建維,陳進忠,陳炳煇,1992,11, “高紊流強度下對圓柱質傳的影響,” 第九屆全國機械工程學術研討會論文集,高雄市,pp. 633-642.計畫編號:NSC-80-0401-E-002 -04
81. 陳進忠,陳建維,陳炳煇,1992,11, “尾流場及紊流強度對渦輪引擎葉片質 (熱)傳之影響,"第三十四屆全國航空及太空工程學術研討會論文集,台南市,pp. 705-714.計畫編號:NSC-80-0210-D-002 -37
82. 陳進忠,陳炳煇,1992,11, “端牆迴流場對渦輪引擎葉片質 (熱)傳之影響,” 第一屆國防科技學術研討會論文集,桃園縣,pp. 219-226.計畫編號:NSC-80-0210-D-002 -37.
83. 陳志恆,陳進忠,陳炳煇,劉明, 1991.11, “雷諾數及阻流場對渦輪引擎葉片質 (熱)傳之影響," 第八屆全國機械工程學術研討會論文集,台北市,pp. 405-412.計畫編號:NSC-78-0210-D-002 -15
84. 王文嵐,陳炳煇, 1990.11,“瞬間啟動之正方形流場分析,” 第七屆全國機械工程學術研討會論文集,新竹市, pp.531-538.計畫編號:NSC-79-0401-E-002 -20
85. Chen, P.H. and Wang, W.L., 1990, 06, “Simulation of the Roll-Up of a Vortex Sheet Using a Viscous Vortex Method,” presented at the XI U.S. National Congress of Applied Mechanics.
86. Chen, P.H. and Wung, P.H., 1989.06, “Diffusion Coefficient of Naphthalene in Air,” Proceedings of Symposium on Transport Phenomena and Application, Taipei, June, pp.75-80. 計畫編號:NSC-78-0401-E-002 -13
87. 陳希立,柯明村,陳炳煇, 1988,12,“表面波對薄膜冷凝熱傳之影響,"中華民國第十二屆全國力學會議論文集,台北市, Dec., pp.181-190.

C. 專書與專書論文
1. 陳炳煇,奈米工程概論, 2003,與其他四位教授合著,普林斯頓出版社。
2. 陳炳煇, 2000, “微機電系統”, 五南出版社, 共314頁。ISBN No. 957-11-2579-2.

 

D. 專利
陳炳煇,李達生,2000, “橫流抽送式排氣裝置,” 新型,中華民國, 專利案號:306859,新型, 中華民國,專利案號:158608。
陳炳煇,李達生, 許綜升,陳佩佩, 2000, “具有通訊功能之衣物或衣飾” 新型, 中華民國, 專利案號:165296。
梁玉鳳,李達生, 陳炳煇, 2001, “可由公共無線通訊網路進行控制之空調設備”, 中華民國 , 新型專利案號:177357。
梁玉鳳,李達生, 陳炳煇, 2001, “可由公共無線通訊網路進行控制之空調設備”, 中國 , 發明專利案號:99121897.3。
李達生, 陳炳煇,許綜升,陳佩佩, 2001, “積層式線圈”, 中華民國 , 新型專利案號:89203412。
Lee, D. S., Chen, P. H., Jeng, S. T., Wang, T.-L., 2003, “A Novel Packaging Base for a Laser Diode,” Taiwan, R. O. C., New Type, Patent Number: 199552。
李達生, 陳炳煇, 陳培哲,李仁鄉, 2003, “一種聚合鋂連鎖反應(PCR)用之核酸倍增反應裝置”, 中華民國,新型, 中華民國, 公告/公開號:00564887。
張培仁、李其源、吳政忠、陳永裕、鮑世勇、鄭英周、陳炳煇、顏凱翔,2004“濕蝕刻壓電材料之厚度即時監控方法”, 中華民國, 發明206714號. 公告/公開號: 00595024 (2004/06/21 - 2023/05/06)
張培仁、李其源、吳政忠、陳永裕、鄭英周、鮑世勇、陳炳煇、顏凱翔,2004“濕蝕刻矽薄膜之厚度即時監控方法”,中華民國發明第 205620號,公告/公開號:00591708 (2004/06/11- 2023/09/11)
陳炳煇,蔡建瑩,蔡宜樺, 2006, “以奈米粒子檢測DNA之方法”, 中華民國, 發明第I250213號。(2006/03/01公告, 2006/03/01 - 2024/03/14)
柯富祥,蔡建瑩,陳俊淇,陳炳煇, 2007, “室溫操作之庫倫阻斷裝置及其製造方法” 中華民國發明I273237,發明公告/公開號:200619614號, (2007/02/11 - 2024/12/12公告)
李達生 ;陳炳煇,2007, “生物晶片及其檢測裝置,” 中華民國,發明I281947, (2007/06/01-2023/07/29).
張天立,蔡建瑩,陳炳煇 , 2007, “條碼核酸或寡核酸片段的改質方法以及應用其檢測核酸或寡核酸之方法”, 中華民國, 公告/公開號: 200738876號。(2007/10/16公告)
張天立,蔡建瑩,陳炳煇, 2007, “檢測蛋白質之方法”, 中華民國, 公告/公開號: 200728719號。 (2007/08/01公告)



 

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