指導教授



王國禎 博士 Dr. Gou-Jen Wang
特聘教授 機械工程學系, 合聘教授 生醫工程研究所
國際期刊編輯委員:ISRN Mechanical Engineering, Journal of Mechanical Engineering and Automation

電話:04-2284-0725 ext. 320
FAX:04-2287-7170
E-mail: gjwang@dragon.nchu.edu.tw
地址:台中市國光路250號國立中興大學機械系

educational backgroundresearchpaperproject

學經歷

B.S., Mechanical Engineering, National Taiwan University, 1981

M.S., Mechanical Engineering, UCLA, CA, USA 1986 

Ph.D., Mechanical Engineering, UCLA, CA, USA 1991

研究興趣

本人近年來之研究主要在奈米與生醫,生醫方面之主要成果為(1)三維奈米結構生醫感測器(2) 組織工程之人工微血管製作。奈米技術方面之主要成果為(1)圖案化陽極氧化鋁膜板製備與應用(2)離子滲透驅動之仿葉綠體機制新太陽能光電池。相關研究成果分述如下

 

1.三維奈米結構生醫感測器:

      AAO3D奈米阻障層結構為基板,接下來以濺鍍機濺鍍一層30 nm之金薄膜做為電泳沈積之電極,經高溫退火處理後,在不需分散劑與還原劑之環境下,即可以電化學沉積法沉積奈米金顆粒於金薄膜電極上,奈米金顆粒之沉積密度可由施加電壓之大小加以控制,最後再將將抗體或受體接於奈米金顆粒上,用以偵測相對應之待測物。此奈米結構生醫感測器已與台中榮總教學研究部蔡肇基主任合作,成功應用於塵蟎過敏原Der p2檢測、過敏病人血清檢測、過敏病人DNA單核苷酸變異(SNP)與單倍型核苷酸變異(Haplotype) 檢測。本研究目前亦與台中榮總肝膽胃腸科吳俊穎醫師(B型肝炎病毒DNA檢測)、高醫大神經科楊淵韓主治醫師(阿茲海默先期檢測)、陽明醫大臨床醫學所謝世良所長、中研院生醫所林宜玲教授(檢測登革熱病毒外套結構之醣蛋白與人體Fc receptors之結合)、中興大學植病系詹富智主任(蘭花病毒檢測)等團隊合作,此外;亦與精亞科技(熱壓成型專用機台開發、PC奈米結構熱壓成型)、國研院儀科中心(可攜式檢測儀開發)、彰師大機電系鍾官榮教授(印刷電路板製程、晶片封裝)合作開發檢測平台量產技術。

                                                       

 

  項目                                                                                    研究成果
    1 Chin, Y. T., Liao, E. C., Wu, C. C., Wang, G. J.*, and Tsai, J. J.**, Label-free detection of single-nucleotide polymorphisms associated with myeloid differentiation-2 using a nanostructured biosensor, Biosensors & Bioelectronics, 49, 506-511. (2013) (IF=5.437).
    2 Liu, H. C., Tsai, C. C. and Wang, G. J.*, Glucose biosensors based on a gold nanodendrite modified screen-printed electrode, Nanotechnology, 24, 215101. (2013) (IF=3.842).
    3 Tsai, J. J., Liu, Y. F., Liao, E. C., Chen, J. L, and Wang, G. J.*, Reduction of incubation time and enhancement of analyte adhesion uniformity of impedance biosensors using microvibration method, Sensors & Actuators B: Chemical, 178, 404-411. (2013) (IF=3.535)
    4 Tsai, C. C. and Wang, G. J.*, A glucose biosensor based on a 3D nanostructured gold electrode, J. Electrochemical Society, 160(1), B1-B5. (2013) (IF=2.588)
    5 Liu, Y. F., Tsai, J. J., Chin, Y. T., Liao, E. C., Wu, C. C., Wang, G. J.*, Detection of allergies using a silver nanoparticle modified nanostructured biosensor, Sensors & Actuators B: Chemical, 171-172, 1095-1100. (2012) (IF=3.535)
    6 Chen, Y. S., Wu, C. C., Tsai, J. J., and Wang, G. J.*, An electrochemical impedimetric biosensor based on a nanostructured polycarbonate (PC) substrate, Inter. J. Nanomedicine, 7, 133-140 (2012) (IF=3.463)
    7 Bau, I. J. And Wang, G. J.*, The ASME 5th International Conference on Micro- and Nanosystems, Washington DC, USA. (2011) The Best Paper Award
    8 Tsai, J. J., Bau, I. J., Chen, H. T., Lin, Y. T., and Wang, G. J.* A novel nanostructured biosensor for the detection of the dust mite antigen Der p2, Inter. J. Nanomedicine, 6:1-8. (2011) (IF=3.463)
    9 受衛生署選派於「2012 台灣奈米週」(2012/10/03-2012/10/05)期中館展示
   10 受邀於「2012 東京奈米展」(2012/02/15-2012/02/17)展示
   11 受邀於「2011 國際半導體展」(2011/09/07-2011/09/09)展示
   12 受邀於「2011 台灣奈米週」(2011/10/05-2011/10/07)展示
   13 低成本、高靈敏度生醫檢測晶片,第八屆國家新創獎入圍決賽(2011)
   14 蓋亞奈米股份有限公司,第十屆WeWin台灣工業銀行創業大賽佳作(2009)
   15 奈米半球結構陣列模具製作 (台灣發明專利審查中,申請案號:100121972)

 

2.組織工程之人工微血管               

    組織工程中之人工微血管因涉及機械領域之流體力學分析、元件設計、微管道製作與封裝、生醫領域之細胞培養等不同技術,屬跨領域之研究。MIT機械系之Borenstein教授與Harvard U.醫學院之Vacanti教授所組成之研究團隊乃是第一個投入此領域之團隊,中興大學之研究團隊為全世界第二個團隊,數年前在國家衛生研究院組織工程與幹細胞研究中心籌備計畫之資助下開始投入相關研究。團隊已領先開發出以生物可降解材料PLGA製作具圓形截面且有管壁奈米結構之微血管道支架,近年亦與工研院南分院合作,以飛秒雷射製作柱狀實心支架結構,解決觀測不易與培養液更換不易之問題,並與中興大學動物系合作,結合多孔支架與控制釋放使胚胎幹細胞分化成血管內皮細胞。

                              
                   PLGA circular microchannels with inner nanopattern   Calcein-AM labeled BECs

    

 

          Cell cultured on hollow 3D PLGA scaffold ESCs differentiate to VECs using control release

 

  項目                                                                                    研究成果
    1 Li, C. W. and Wang, G. J.*, A material-independent cell–environment niche based on micro-reciprocating motion for cell growth enhancement, Biofabrication, 5, 045001. (2013) (SCI, Impact Factor=3.705)
    2 Wang, H. W., Cheng, C. W., Li, C. W., Wu, P. H., and Wang, G. J.*, ”Hollow three-dimensional endothelialized microvessel networks based on femtosecond laser ablation,” Biomedical Microdevices, Online. (2013) (IF=2.718).
    3 Wang, H. W., Cheng, C. W., Li, C. W., Chang, H. W., Wu, P. H., Wang, G. J.*, Fabrication of pillared PLGA microvessel scaffold using femtosecond laser ablation, Inter. J. Nanomedicine, 7:1865-1873. (2012). (SCI, IF=3.463)
    4 Wang, G. J.*, Lin, Y. C., and Hsu, S. h., The Fabrication of PLGA Microvessel Scaffolds with Nano-Patterned Inner Walls, Biomedical Microdevices, 12, 841-848. (2010) (IF=2.718)
    5 Wang, G. J.*, Lin, Y. C., Lee, J. W,, Hsueh, C. C., Hsu, S. h, Hung, H. S., Fabrication of Orderly Nanostructured PLGA Scaffolds Using Anodic Aluminum Oxide Templates, Biomedical Microdevices, 11, 843-850. (2009) (IF=2.718)
    6 Wang, G. J.*, Hsueh, C. C., Hsu, S. H., Hung, H. S., Fabrication of PLGA Microvessel Scaffolds with Circular Microchannels Using Soft Lithography, J. of Micromechanics and Microengineering, 17:2000-2005 (2007). (IF=1.79) 2007 Highlights
    7 Wang, G. J.*, Ho, K. H., Hsu, S. H., Wang, K. P., Microvessel Scaffold with Circular Microchannels by Photoresist Melting, Biomedical Microdevices, 9, 657-663. (2007) (IF=2.718)
    8 Wang, G. J.*, Hsu, Y. F., Hsu, S. H., Horng, R. H., JSR Photolithography Based Microvascular Fabrication and Cell Seeding, Biomedical Microdevices, 8(1), 17-23. (2006) (IF=2.718)
    9 Wang, G. J.* and Hsu, Y. F., Structure Optimization of Microvascular Scaffolds, Biomedical Microdevices, 8(1), 51-58. (2006) (IF=2.718)
   10 Wang, G. J.*, Chen, C. L., Hsu, S. H., and Chiang, Y. L., Bio-MEMS Fabricated Artificial Vascular Network for Tissue Engineering, Microsystem Technologies, 12(1-2), 120-127. (2005) (IF=0.872)

 

3.圖案化陽極氧化鋁膜板製備與應用

   中興大學機械系奈微米系統實驗室為目前國內製作陽極氧化鋁膜(AAO)最具規模與技術之團隊,藉由自行開發之恆溫水循環系統以及自行設計之壓克力夾治具,可生產各種不同孔洞大小之AAO與矽基奈米孔洞薄膜。成功應用研究包含:以AAO為模版製作半球形奈米陣列模具壓印奈米生醫材料、製作高靈敏度生醫感測器、製作奈米生醫材料等。另陽極氧化技術亦受合晶科技委託,於矽晶圓上製作奈米結構做為太陽能基板之抗反射層,已可將反射率由濕蝕刻之10%降至1.2%

             
                        Ni nonorods array                                          Au-Ni coaxial nanorods array

    

 

            Si nanorod array on micro-pyramid                      Nanopore in silicon for DNA sequencing

 

  項目                                                                                    研究成果
    1 Chung, I. C., Li, C. W., and Wang, G. J.*, The influence of different nanostructured scaffolds on fibroblast growth, Science and Technology of Advanced Materials, 14, 044401. (2013) (IF =3.752)(全研碩士論文獎佳作)
    2 Tsai, Y. T., Chang, K. J., and Wang, G. J.*, Measurement and control of the ion diffusion coefficient in a nanochannel, Microsystem Technologies, 19, 937-944. (2013) (IF =0.827)
    3 Ho, J. Y. and Wang, G. J.*, Fabrication of high aspect ratio nanoporous array on silicon, Microsystem Technologies, 18, 1849-1856. (2012) (IF =0.827)
    4 Chang, C. Y. and Wang, G. J.*, Anodic Aluminum Oxide Diodes, Japanese Journal of Applied Physics, 50(7), 075201 (4 pages) (2011) (IF=1.067)
    5 Wang, C. G. and Wang, G. J.*, “A MOSFET-like infrared sensor for the enhancement of photoconductivity and photoresponsivity,” Current Nanoscience, 6(6):648-653. (2010) (IF=1.356)
    6 Hsu, C. W., Chou, Z. D., and Wang, G. J.*, Fabrication of High Aspect Ratio Alumina-Nickel Coaxial Nanorod Array by Electrodeposition, ASME/IEEE JMEMS, 19(4): 849-853 (2010). (IF=2.219).
    7 Chen, G. Y., Lee, M. W., and Wang, G. J.*, Fabrication of Dye- Sensitized Solar Cells with A 3D Nanostructured Electrode, Inter. J. of Photoenergy, Vol. 2010, Article ID 585621, 7 pages, DOI:10.1155/2010/585621, (2010) (SCI, IF=1.769)
    8 Wang, G. J.*, Lin, Y. C., Lee, J. W,, Hsueh, C. C., Hsu, S. h, Hung, H. S., Fabrication of Orderly Nanostructured PLGA Scaffolds Using Anodic Aluminum Oxide Templates, Biomedical Microdevices, 11, 843-850. (2009) (IF=2.718)
    9 Chen, H. T. and Wang, G. J.*, “Fabrication of 3D Nano-structured ITO Films by RF Magnetron Sputtering,” Current Nanoscience, 5(3): 297-301. (2009) (IF=1.356)
   10 Wang, G. J.*, Chen, H. T., Yang, H., Fabrication of crystalline indium tin oxide nanobaskets electrode using AAO template, Japanese Journal of Applied Physics, 47(7):5727-5729. (2008) (IF=1.067)
   11 矽晶圓表面奈米結構製作:合晶科技委託研究案(2011/08-2012/07)

 

4.離子滲透驅動之仿葉綠體機制新太陽能光電池

葉綠體乃是最有效率之太陽能轉換工廠,本研究之創意乃是模仿葉綠體的機制,發展新型奈米太陽能光電池元件。本研究之創意乃是模仿葉綠體的機制,發展新型奈米太陽能光電池元件。

     在人工葉綠素方面,本研究以二氧化鈦(TiO2)覆蓋奈米碳管陣列(CNT array)之複合光觸媒做為分解水成為氫離子(H+)與氫氧根(·OH)之酵素,即仿葉綠素將光能轉換成化學能之機制。在人工類囊體膜方面,本研究則是以奈米孔洞陣列之n-type半導體矽晶薄膜隔離不同濃度之H+,製造濃度梯度產生電流。葉綠體之類囊體膜乃是藉由H+濃度梯度製造ATP,本研究則是用以製造H+濃度梯度,進而直接產生電流。光電池本體則是製作電化學槽,以奈米孔洞陣列薄膜分隔成兩部分並別裝入去離子水,再將TiO2/CNT複合光觸媒置於其中之一槽,受太陽光照射時,由水解反應製造H+·OHH+經仿類囊體膜流至另一槽,電子則經由電極與導線流至對電極而產生電流,再與流經仿類囊體膜之氫離子結合產生氫氣。

整體研究成果獲ENI AWARD 2012-Nomination (http://www.eni.com/eni-award/eng/home.shtml)

                                  
           仿葉綠體機制之太陽光電池架構                               TiO2/CNT laminated photocatalyst
    

 

            Photocurrent of the photovoltaics                 electrophoretically deposited TiO2 nanoparticles

 

  項目                                                                                    研究成果
    1 Liu, H. C. and Wang, G. J.*, Fabrication of high anti-reflection nanowires on silicon using two-stage metal-assisted etching, Journal of Renewable and Sustainable Energy, 5, 053115. (2013) (IF=1.514).
    2 ENI AWARD 2012-Nomination- A prize awarded by the Italian oil and gas company ENI with the aim of encouraging better use of energy sources and increased environmental research (http://www.eni.com/eni-award/eng/home.shtml)
    3 Wang, G. J.*, Lee, M. W., Chen, W. Z., Chen, Y. H., Chien, M. C., Yu, M. C., A Metal-Solution Field-Effect-Transistor Enhanced Proton-Motive-Force Driving Photovoltaic, IEEE Trans. on Nanotechnology, 10(2):191-196. Cover page (2011) (IF=1.800)
    4 Wang, G. J.* and Chou, S. W., Electrophoretic deposition of uniformly distributed TiO2 nanoparticles using an anodic aluminum oxide template for efficient photolysis, Nanotechnology, 21, 115206, (2010) (IF=3.842).
    5 Chen, G. Y., Lee, M. W., and Wang, G. J.*, Fabrication of Dye- Sensitized Solar Cells with A 3D Nanostructured Electrode, Inter. J. of Photoenergy, 2010, Article ID 585621, 7 pages, DOI:10.1155/2010/585621, (2010) (IF=2.663)
    6 Wang, G. J.*, Lee, M. W., Chen, Y. H., A TiO2/CNT coaxial structure and standing CNT array laminated photocatalyst to enhance the photolysis efficiency of TiO2, Photochemistry and Photobiology, 84:1493-1499. (2008) (IF=2.287)
    7 Chien, M. C., Wang, G. J.*, Yu. M. C., Nanopore Size Estimation Using Electrochemical Impedance Spectroscopy Analysis, Japanese Journal of Applied Physics, 47(9):7459-7463. (2008) (IF=1.067)
    8 Wang, G. J.*, Chen, H. T., Yang, H., Fabrication of crystalline indium tin oxide nanobaskets electrode using AAO template, Japanese Journal of Applied Physics, 47(7):5727-5729. (2008) (IF=1.067)
    9 Wang, G. J.*, Chen, W. Z., Chang, K., “A two-step etching method to fabricate nanopores in silicon,” Microsystem Technologies, 14:925-927. (2008) (SCI, IF=1.067)

 

 

論文發表

Publication Lists

(A) Journal papers

2014

1.   Hsu, C. W., Li, C. W. and Wang, G. J.*, Fabrication of biocompatible high aspect ratio Au–Ni coaxial nanorod arrays using the electroless Galvanic displacement reaction method, RSC advances, 4, 12127-12132. (2014) (SCI, Impact Factor=2.562).

2.   Hsu, C. W. and Wang, G. J.*, Highly sensitive glucose biosensor based on Au–Ni coaxial nanorod array having high aspect ratio, Biosensors & Bioelectronics, 56, 204-209. (2014) (SCI, Impact Factor=5.437).

3.   Wu, J. Y., Li,C. W., Tsai, C. H., Chou, C. W., Chen, D. R., and Wang, G. J.*, Synthesis of antibacterial TiO2/PLGA composite biofilms, Nanomedicine, In press. (2014) (SCI, Impact Factor=6.93).

4.   Chin, Y. T., Liao, E. C., Wu, C. C., Wang, G. J.*, and Tsai, J. J.*, Detection of the haplotype mutations of the MD-2 gene promoter associated with Der p2-induced allergy using a nanostructured biosensor, Inter. J. Nanomedicine, 9, 1-10. (2014) (SCI, Impact Factor=3.463)

5.   Wu, J. Y., Li,C. W., Tsai, C. H., Chou, C. W., Chen, D. R., and Wang, G. J.*, Synthesis of antibacterial TiO2/PLGA composite biofilms, Nanomedicine, In press. (2014) (SCI, Impact Factor=6.93).

6.   Chin, Y. T., Liao, E. C., Wu, C. C., Wang, G. J.*, and Tsai, J. J.*, Detection of the haplotype mutations of the MD-2 gene promoter   associated with Der p2-induced allergy using a nanostructured biosensor, Inter. J. Nanomedicine, 9, 403-412. (2014) (SCI, Impact Factor=3.463)

2013

7.   Liu, H. C. and Wang, G. J.*, Fabrication of high anti-reflection nanowires on silicon using two-stage metal-assisted etching, Journal of Renewable and Sustainable Energy, 5, 053115. (2013) (SCI, Impact Factor=1.514).

8.  Li, C. W. and Wang, G. J.*, A material-independent cell–environment niche based on micro-reciprocating motion for cell growth enhancement, Biofabrication, 5, 045001. (2013) (SCI, Impact Factor=3.705).

9.  Chung, I. C., Li, C. W., and Wang, G. J.*, The influence of different nanostructured scaffolds on fibroblast growth, Science and Technology of Advanced Materials, 14, 044401. (2013) (SCI, Impact Factor=3.752).

10.  Chin, Y. T., Liao, E. C., Wu, C. C., Wang, G. J.*, and Tsai, J. J.*, Label-free detection of single-nucleotide polymorphisms associated with myeloid differentiation-2 using a nanostructured biosensor, Biosensors & Bioelectronics, 49, 506-511. (2013) (SCI, Impact Factor=5.437).

11.  Wang, H. W., Cheng, C. W., Li, C. W., Wu, P. H., and Wang, G. J.*, Hollow three-dimensional endothelialized microvessel networks based on femtosecond laser ablation, Biomedical Microdevices, Online. (2013) (SCI, Impact Factor=2.718).

12.  Liu, H. C., Tsai, C. C. and Wang, G. J.*, Glucose biosensors based on a gold nanodendrite modified screen-printed electrode, Nanotechnology, 24,  215101. (2013) (SCI, Impact Factor=3.842).

13.  Tsai, J. J., Liu, Y. F., Liao, E. C., Chen, J. L, and Wang, G. J.*, Reduction of incubation time and enhancement of analyte adhesion uniformity of impedance biosensors using microvibration method, Sensors & Actuators B: Chemical, 178, 404-411. (2013) (SCI, Impact Factor=3.535)

14.  Chou, C. W.*, Hsieh, H. H., Chen, K. S., Hong-Ru Lin, H. R., Wang, G. J., Chang, H. C., Pan, Y. L., Wei, Y. S., Chang, K. S., and Harn, Y. W., Biopolymer coated gold nanocrystals prepared using the green chemistry approach and their shape-dependent catalytic and surface-enhanced Raman scattering properties, Physical Chemistry Chemical Physics, 15, 11275-11286. (2013) (SCI, Impact Factor=3.829).

15.  Lin, Y. W. and Wang, G. J.*, Dielectrophoresis measurement of bovine endothelial cells adhesion on different materials, Microsystem Technologies, 19, 945-955. (2013) (SCI, Impact Factor=0.827)

16.  Tsai, Y. T., Chang, K. J., and Wang, G. J.*, Measurement and control of the ion diffusion coefficient in a nanochannel, Microsystem Technologies, 19, 937-944. (2013) (SCI, Impact Factor=0.827)

17.  Tsai, C. C. and Wang, G. J.*, A glucose biosensor based on a 3D nanostructured gold electrode, J. Electrochemical Society, 160(1), B1-B5. (2013) (SCI, Impact Factor=2.588)

2012

18.  Liu, Y. F., Tsai, J. J., Chin, Y. T., Liao, E. C., Wu, C. C., Wang, G. J.*, Detection of allergies using a silver nanoparticle modified nanostructured biosensor, Sensors & Actuators B: Chemical, 171-172, 1095-1100. (2012) (SCI, Impact Factor=3.535)

19.  Wang, H. W., Cheng, C. W., Li, C. W., Chang, H. W., Wu, P. H., Wang, G. J.*, Fabrication of pillared PLGA microvessel scaffold using femtosecond laser ablation, Inter. J. Nanomedicine, 7, 1865-1873. (2012) (SCI, Impact Factor=3.463)

20. Chen, Y. S., Wu, C. C., Tsai, J. J., and Wang, G. J.*, An electrochemical impedimetric biosensor based on a nanostructured polycarbonate (PC) substrate, Inter. J. Nanomedicine, 7, 133-140 (2012) (SCI, Impact Factor=3.463)

21.  Ho, J. Y. and Wang, G. J.*, Fabrication of high aspect ratio nanoporous array on silicon, Microsystem Technologies, 18, 1849-1856. (2012) (SCI, Impact Factor=0.827)

2011

22.  Tsai, J. J., Bau, I. J., Chen, H. T., Lin, Y. T., and Wang, G. J.*, A novel nanostructured biosensor for the detection of the dust mite antigen Der p2, Inter. J. Nanomedicine, 6, 1201-1208. (2011) (SCI, Impact Factor=3.463)

23.  Chang, C. Y. and Wang, G. J.*, Anodic Aluminum Oxide Diodes, Japanese Journal of Applied Physics, 50(7), 075201 (4 pages) (2011) (SCI, Impact Factor=1.067)

24.  Tubtimtae, A., Lee, M. W.*, and Wang, G. J., Ag2Se quantum-dot sensitized solar cells for full solar spectrum light harvesting, Journal of Power Sources, 196, 6603-6608. (2011) (SCI, Impact Factor=4.675)

25.  Lin, Y. H., Chang, K. J., and Wang, G. J.*, A Novel Chip-on-Glass method for Slim LCD Packaging, Microsystem Technologies, 17, 685-691. (2011) (SCI, Impact Factor=0.827)

26.  Wang, G. J.*, Lee, M. W., Chen, W. Z., Chen, Y. H., Chien, M. C., Yu, M. C., A Metal-Solution Field-Effect-Transistor Enhanced Proton-Motive-Force Driving Photovoltaic, IEEE Trans. on Nanotechnology, 10, 191-196. Cover page (2011) (SCI, Impact Factor=1.800)

2010

27.  Wang, C. G. and Wang, G. J.*, A MOSFET-like infrared sensor for the enhancement of photoconductivity and photoresponsivity, Current Nanoscience, 6(6), 648-653. (2010) (SCI, Impact Factor=1.356)

28.  Wang, G. J.*, Lin, Y. C., and Hsu, S. h., The Fabrication of PLGA Microvessel Scaffolds with Nano-Patterned Inner Walls, Biomedical Microdevices, 12, 841-848. (2010). (SCI, Impact Factor=2.718).

29.  Wang, G. J.* and Chou, S. W., Electrophoretic deposition of uniformly distributed TiO2 nanoparticles using an anodic aluminum oxide template for efficient photolysis, Nanotechnology, 21, 115206, (2010) (SCI, Impact Factor=3.842).

30.  Hsu, C. W., Chou, Z. D., and Wang, G. J.*, Fabrication of High Aspect Ratio Alumina-Nickel Coaxial Nanorod Array by Electrodeposition, ASME/IEEE J. of Microelectromechnaical System, 19(4), 849-853 (2010). (SCI, Impact Factor=2.219).

31.  Chen, Y. C., Chen, G. Y., Lin, Y. C., and Wang, G. J.*, A Lab-on-a-Chip Capillary Network for Red Blood Cell Hydrodynamics, Microfluidics and Nnaofluidics, 9, 585-591. (2010) (SCI, Impact Factor=3.218).

32.  Chen, G. Y., Lee, M. W., and Wang, G. J.*, Fabrication of Dye- Sensitized Solar Cells with A 3D Nanostructured Electrode, Inter. J. of Photoenergy, 2010, Article ID 585621, 7 pages, DOI:10.1155/2010/585621, (2010) (SCI, Impact Factor=2.663)

33.  Lai, M. H., Tubtimtae, A., Lee, M. W.*, Wang, G. J., ZnO-Nanorod Dye-Sensitized Solar Cells: New Structure without a Transparent Conducting Oxide Layer, Inter. J. of Photoenergy, 2010, Article ID 497095, 5 pages, (DOI: 10.1155/2010/497095), (2010) (SCI, Impact Factor=2.663)

34.  Tubtimtae, A., Wu, K. L., Tung, H. Y., Lee, M. W.*, Wang, G. J., Ag2S quantum dot-sensitized solar cells, Electrochemistry Communications, 12, 1158-1160 (2010) (SCI, Impact Factor=4.425)

2009

35.  Wang, G. J.*, Lin, Y. C., Lee, J. W,, Hsueh, C. C., Hsu, S. h, Hung, H. S., Fabrication of Orderly Nanostructured PLGA Scaffolds Using Anodic Aluminum Oxide Templates, Biomedical Microdevices, 11, 843-850. (2009) (SCI, Impact Factor=2.718)

36.  Chen, H. T. and Wang, G. J.*, Fabrication of 3D Nano-structured ITO Films by RF Magnetron Sputtering, Current Nanoscience, 5(3), 297-301. (2009) (SCI, Impact Factor=1.356)

2008

37.  Wang, G. J.*, Lee, M. W., Chen, Y. H., A TiO2/CNT coaxial structure and standing CNT array laminated photocatalyst to enhance the photolysis efficiency of TiO2, Photochemistry and Photobiology, 84, 1493-1499. (2008) (SCI, Impact Factor=2.287)

38.  Chien, M. C., Wang, G. J.*, Yu. M. C., Nanopore Size Estimation Using Electrochemical Impedance Spectroscopy Analysis, Japanese Journal of Applied Physics, 47(9), 7459-7463. (2008) (SCI, Impact Factor=1.067)

39.  Wang, G. J.*, Chen, H. T., Yang, H., Fabrication of crystalline indium tin oxide nanobaskets electrode using AAO template, Japanese Journal of Applied Physics, 47(7), 5727-5729. (2008) (SCI, Impact Factor=1.067)

40.  Wang, G. J.*, Ho, K. H., Hsueh, C. C., Biodegradable polylactic acid (PLA) microstructures for scaffold applications, Microsystem Technologies, 14, 989-993. (2008) (SCI, Impact Factor=0.827)

41.  Wang, G. J.*, Chen, W. Z., Chang, K., A two-step etching method to fabricate nanopores in silicon, Microsystem Technologies, 14, 925-927. (2008) (SCI, Impact Factor=0.827)

2007

42.  Wang, G. J.*, Hsueh, C. C., Hsu, S. H., Hung, H. S., “Fabrication of PLGA Microvessel Scaffolds with Circular Microchannels Using Soft Lithography,” Journal of Micromechanics and Microengineering, Vol. 17, pp. 2000-2005. (2007)

43.  Chien, M. C., Wang, G. J.*, Yu. W. C., “Modeling Ion Diffusion Current in a Nanochannel Using Infinitesimal Distribution RC Circuits,” Japanese Journal of Applied Physics, Vol. 46, No. 11, pp. 7436-7440. (2007)

44.  Wang, G. J.*, Ho, K. H., Hsu, S. H., Wang, K. P., “Microvessel Scaffold with Circular Microchannels by Photoresist Melting,” Biomedical Microdevices, Vol. 9, pp. 657-663. (2007)

45.  Wang, G. J.*, Lin, Y. C., Lin, G. S., “Ultra Fine Pitch Flat Panel Display Packaging Using 3mm Conductive Particles,” Microsystem Technologies, Vol. 13, No. 11-12. pp. 1471-1476. (2007)

46.  Fan, J. Y., Chien, M. C, Wang, G. J.*, “Experimental Investigation on the Bi-directional Growing Mechanism of the Foils Laminate Approach in AAO Fabrication,” Nanoscale Research Letters, Vol. 2, No. 1, pp. 49-53. (2007)

47.  Wang, G. J.*, Lin, Y. C., Lin, G. S., “A Novel Contact Resistance Model of Anisotropic Conductive Film for FPD Packaging,” Microsystem Technologies, Vol. 13, No. 11-12. pp. 1477-1482. (2007)

48.  Wang, G. J.*, Lin, B. S. and Chang, K., “In-Situ Neural Network Process Controller for Copper Chemical Mechanical Polishing,” International Journal of Advanced Manufacturing Technology, Vol. 32, pp. 42-54. (2007)

2006

49.  Wang, G. J.*, Chang, J. H., and Yang H., “Triplex-Pumping CD-Like Microfluidic Platform with Parabolic Microchannels,” Microsystem Technologies, Vol. 12, No. 10-11. pp. 899-905. (2006)

50.  Yu, W. C. and Wang, G. J.*, “Discrete Sliding Mode Controller Design Based on the LQR Suboptimal Approach with Application on AC Servo Motor,” Journal of Chinese Institute of Engineers, Vol. 29, No 5, pp. 873-882. (2006)

51.  Wang, G. J.* and Hsu, W. H., “PET Laminated Thin-Film Capillary Electrophoresis Chips by Sandwiching Method,” International Journal of Advanced Manufacturing Technology, Vol. 30, No 1-2, pp. 87-91. (2006)

52.  Chen, S. N., Wang, G. J.* and M. C. Chien, “Analytical modeling of piezoelectric vibration-induced micro power generator, “Mechatronics, Vol. 16, pp 379-387. (2006)

53.  Wang, G. J.*, Yu, W. C., Lin, Y. H., Yang, H., “Modeling and Fabrication of a Piezoelectric Vibration-Induced Micro Power Generator,” Journal of Chinese Institute of Engineers, Vol. 29, No. 4. pp. 697-706. (2006)

54.  Wang, G. J.* and Liu, H. R., “Piezoelectric Actuated Multiple Channels Optical Switch,” Analog integrated circuits and signal processing, Vol. 48, No. 1, pp15-20. (2006)

55.  Wang, G. J.* and Peng, C. S., “Control Porous Pattern of Anodic Aluminum Oxide by Foils Laminate Approach,” Journal of Nanoscience and Nanotechnology, Vol. 6, No. 4, pp 1004-1008. (2006)

56.  Wang, G. J.* and Yu, C. H., “Developing a Neural Network Based Run-To-Run Process Controller For Chemical Mechanical Planarization,” International Journal of Advanced Manufacturing Technology, Vol. 28, No. 9, pp 899-908. (2006)

57.  Wang, G. J.* and Hsu, Y. F., “Structure Optimization of Microvascular Scaffolds” Biomedical Microdevices, Vol. 8, No. 1, pp 51-58. (2006)

58. Wang, G. J.*, Hsu, Y. F., Hsu, S. H., Horng, R. H. “JSR Photolithography Based Microvascular Fabrication and Cell Seeding” Biomedical Microdevices, Vol. 8, No. 1, pp 17-23. (2006)

2005

59.  Chang, Y. Z., Yang, M. W., Wang, G. J.*, “A New Mass Spectrometry Electro-Spray Tip Based on Precise Mechanical Micro Machining,” Analytical and Bioanalytical Chemistry, Vol. 383, No. 1, pp. 76-82. (2005)

60.  Wang, G. J.*, Chen, C. L., Hsu, S. H., and Chiang, Y. L., “Bio-MEMS Fabricated Artificial Vascular Network for Tissue Engineering,” Microsystem Technologies, Vol. 12, No. 1-2, pp. 120-127. (2005)

61.  Wang, G. J.* and Chou, M. H., “A Neural-Taguchi Based Quasi Time-Optimal Control Strategy For Chemical Mechanical Polishing Processes,” International Journal of Advanced Manufacturing Technology, Vol. 26, No. 7-8, pp. 759-765. (2005)

62.  Wang, G. J.*, Lee, C. K., Hsu, C. C.,” Toward a Comprehensively Interdisciplinary Nanoscience and Nanotechnology Personnel Training Program In Taiwan,INNOVATIONS 2005-World Innovations in Engineering Education and Research, Chapter IV. (2005)

63.  Wang, G. J.*, Cheng, Y. D, Chang, K.,” A New Neural Fuzzy Control System with Heuristic Learning,” International Journal of Fuzzy Systems, Vol. 7, No. 4, pp. 158-168. (2005)

Before 2004

64.  Wang, G. J.*, Yang, M. W., Chang, Y. Z. “Dead Volume Free Micro-machined Electro-spray Chip for Mass Spectrometry,” Biomedical Microdevices, Vol. 6, No. 2. pp. 159-164 (2004)

65.  Yu, W. C. and Wang, G. J.*, “Discrete Sliding Mode Control with Forgetting Dynamic Sliding Surface,“ Mechatronics, Vol. 14, pp. 737-755. (2004)

66.  Wang, G. J.*, Hsu, W. H., Chang, Y. Z., Yang, H. H. “Centrifugal and Electric Field Forces Dual-Pumping CD-Like Microfluidic Platform for Biomedical Separation,” Biomedical Microdevices, Vol. 6, No. 1, pp. 47-53. (2004)

67.  Wang, G. J.*, and Song, S. W., Yu, W. C., “A New Discrete Dynamic Sliding Mode Controller for Singular Perturbed Servo Systems,” Journal of Chinese Society of Mechanical Engineers, Vol. 25, No. 1, pp 41-50. (2004)

68.  Wang, G. J.* and Chou, M. H., Chang K., “New Orthogonalization And Conjugate Descendent Based Parameter Setting-Free Methods For The Backpropagation Algorithm,” Journal of Chinese Society of Mechanical Engineers, Vol. 24, No 5, pp. 499-505. (2003)

69.  Wang, G. J.*, Wang, S. Y., and Chin, C. H., “Fabrication and Modeling of the Gray-scale Mask Based Aspheric Refraction Microlens Array,” JSME International Journal, Series C, Vol. 46, No. 4, pp. 1958-1603 (2003)

70.  Yu, W. C. and Wang, G. J.*, “Discrete-Type Heuristic Self-Tuning PID Controller,“ Journal of Chinese Society of Mechanical Engineers, Vol. 24, No 2, pp. 181-186. (2003)

71.  Wang, G. J.*, Wu, J. G., Chang K., “A New Neural Network Based Parameter Optimization Method,” Journal of Chinese Society of Mechanical Engineers, Vol. 24, No 2, pp. 99-109. (2003)

72.  Wang, G. J.*, Fong, T. T., and K. J. Chang, “Neural Network-Based Self-Tuning PI Controller for Precise Motion Control of PMAC Motors,” IEEE Transaction on Industrial Electronics, Vol. 48, No. 2, pp 408-416. (2001)

73.  Wang, G. J.*, Chen, J. L., and Hwang, J. Y., “New Optimization Strategy for Chemical Mechanical Polishing Process,” JSME International Journal, Series C, Vol. 44, No. 2, pp. 534-543. (2001)

74.  Wang, G. J.*, and Chen, J. J., “Cascade Steepest Descendant Learning Algorithm for Multilayer Feedforward Neural Network,” JSME International Journal, Series C, Vol.43, No. 2, pp 350-358. (2000)

75.  Wang, G. J.*, and Cheng, T. C., “A Robust Self-Tuning Learning Algorithm for Multilayer Feedforward Neural Network,” Neurocomputing, Vol. 25, pp167-189.  (1999)

76.  Wang, G. J.*, and Wang, C. C., "Reverse Engineering of Sculptured Surface by Four-Axis Non-Contacting Scanning," International Journal of Advanced Manufacturing Technology, Vol. 15, No. 5. (1999)

77.  Wang, G. J.*, Luh, C. F., and Wang, C. C., "Intelligent 3D CAD Data Extracting System," JSME International Journal, Series C, Vol.41, No. 4, pp. 912-921. (1998)

78.  Wang, G. J.*, and Yang, Y. Z., Chang, K., "A MDRS Network Based Intelligent Vision System," the International Journal of Knowledge-Based Intelligent Engineering Systems, Vol. 2, NO 1, pp. 17-31. (1998)

79.  Wang, G. J.*, Tsai, J. C., Tzeng, P. C., and Cheng, T. C., "Neural-Taguchi Method for Robust Design Analysis," Journal of the Chinese Society of Mechanical Engineers Vol. 19, NO 2. pp. 223-230. (1998)

80.  Wang, G. J.*, and Cheng, C. C., "A Fast Multilayer Neural Network Training Algorithm Based on the Layer-By-Layer Optimizing Procedures," IEEE Tran. on Neural Network, Vol. 7, No. 3, pp. 768-775  (1996)

81.  王國禎*, 陳琮祺, 1996, " 類神經網路適應學習演算法," 興大工程學報, Vol. 7, No. 2, pp. 1-7. (1996)

82.  王國禎*,黃仲麒, " 渦輪噴射引擎之類神經網路全域控制," 中國航空太空學刊, Vol. 28, No. 2, pp. 137-145. (1996)

83.  王國禎*,黃仲麒, " 雙軸渦輪扇引擎之類神經網路控制器," 中國航空太空學刊, Vol. 28, No. 3, pp. 231-239. (1996)

 

(B)   Book Chapter

1.      Lee, J. W. and Wang, G. J.*, “Tissue Scaffolding Devices,” MEMS for biomedical applications, Woodhead Publishing Limited, (2012, 07).

 

(C) Conference proceedings

1.        馮文昭、王國禎*, 高靈敏奈米線陣列葡萄糖感測器”, 第十七屆奈米工程暨微系統技術研討會, (2013)-佳作

2.        秦于婷王國禎*, 過敏基因之單核苷酸多態性無標記檢測”, 第十七屆奈米工程暨微系統技術研討會, (2013)

3.        Chung, I. C. and Wang, G. J.*, “Nanomolding of nanostructured biodegradable tissue engineering scaffolds,” Proceedings of the ASME 7th International Conference on Micro- and Nanosystems, DETC2013-12175, Portland, OR, USA. (2013)

4.        Hsu, C. W. and Wang, G. J.*, “High aspect ratio Au/Ni coaxial nanorod arrays for biosensing applications,” Proceedings of the ASME 7th International Conference on Micro- and Nanosystems, DETC2013-12869, Portland, OR, USA. (2013)

5.        Chin, Y. T. and Wang, G. J.*, “Detection of base pairs in single-nucleotide polymorphisms (SNP) using a nanostructured biosensor,The 2013 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, April 16-18, Barcelona, Spain (2013).

6.        Liu, H. C.,  Tsai, C. C., Chang, K. J., and Wang, G. J.*, “A highly sensitive biosensor based on a 3D gold nanostructure modified screen-printed electrode for glucose detection, The 2013 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, April 16-18, Barcelona, Spain (2013).

7.        Li, C. W. and Wang, G. J.*, “A material and surface morphology independent micro environment “niche” for tissue engineering,” paper # 120, IEEE-NEMS 2013, April 7-10, Suzhou, China (2013).

8.        Wu, J. Y., Li, C. W., Tsai, C. H., and Wang, G. J.*, “Synthesis of antibacterial TiO2/PLGA composite biofilms,” paper # 121, IEEE-NEMS 2013, April 7-10, Suzhou, China (2013).

9.        Wang, G. J.*, Liu, Y. F., Wu, Wu, C. C., “In-vitro allergy detection using a silver nanoparticle modified nanostructured biosensor,” Proceedings of the ASME 6th International Conference on Micro- and Nanosystems, DETC2012-70299, Chicago, IL, USA. (2012)

10.    Lin, Y. W. and Wang, G. J.*, “Measurement of adhesion of bovine endothelial cells on different materials using dielectrophoresis,” Proceeding of the 2012 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, (2012).

11.    Tsai, Y. T. and Wang, G. J.*, “Control of the ion diffusion coefficient in a nanochannel,” Proceeding of the 2012 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, (2012).

12.    Chen, Y. S. and Wang, G. J.*, “A high sensitivity and low-cost polycarbonate (pc)-based biosensor,” paper # 3, IEEE-NEMS 2012, March 6-8, Kyoto, Japan.

13.    Li, C. W., Chen, J. L., Wu, C. C., Wang, G. J.*, “The optimal vibrational shear stress for bovine endothelial cell proliferation,” paper # 183, IEEE-NEMS 2012, March 6-8, Kyoto, Japan.

14.    王曉威、鄭中緯張漢威、吳秉翰、王國禎,利用飛秒雷射製作人工微血管3D立體支架,中國機械工程學會第二十八屆全國學術研討會(2011)

15.    Chen, Y. S. and Wang, G. J.*, “Nanomolding of hemisphere array using anodic aluminum oxide template”, 第十五屆奈米工程暨微系統技術研討會, (2011)

16.    Wang, H. W., Cheng, C. W., Li, C. W., Chang, H. W., Wu, P.H., Wang, G. J.*, “Realization of artificial microvessel networks using pillared PLGA microvessel scaffold”, 第十五屆奈米工程暨微系統技術研討會, (2011)

17.    Bau, I. J. And Wang, G. J.*, “A highly sensitive electrochemical impedimetric nanobiosensor for dust mite antigen Der p2 detection”, Proceedings of the ASME 5th International Conference on Micro- and Nanosystems, DETC2011-47123, Washington DC, USA. (2011)

18.    Wang, H. W., Cheng, C. W., Li, C. W., Wang, G. J.*, “Fabrication of pillared PLGA microvessel scaffold using femtosecond laser ablation”, Proceedings of the ASME 5th International Conference on Micro- and Nanosystems, DETC2011-47532, Washington DC, USA. (2011)

19.    Li, C. W. Chen, J. L., Wang, G. J.*, “A simple method for investigating the optimal shear stress for cell growth“, Proceedings of the 5th World Congress on Bioengineering, August 18-21, 2011, Tainan, Taiwan.

20.    林宜薇、李靜雯、王國禎以介電泳力量測牛頸動脈內皮細胞在不同生醫材料之貼附效果2011年生物醫學工程科技研討會(2011)

21.    Tsai, Y. T and Wang, G. J.*,Measurement of Diffusivity in Nanochannels,” Proceeding of the 2011 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, (2011)

22.    Ho, J. Y. and Wang, G. J.*, “Fabrication of High Aspect Ratio Nanoporous Array on Silicon,” Proceeding of the 2011 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, (2011)

23.    李靜雯、顏榮信、王國禎*” TiO2/PLGA複合抗菌薄膜 2010年生物醫學工程科技研討會(2010)

24.    王峙評、王國禎*正向光之奈米結構新型染料敏化太陽能電池,中國機械工程學會第二十七屆全國學術研討會(2010)

25.    王曉威、陳勇州、張漢威、鄭中緯、王國禎*利用飛秒雷射進行組織工程支架製作 2010全國精密製造研討會(2010)

26.    Wang, G. J.*, “Applications of Nanotechnology in Biomedical Micro/Nano Devices,” 2010 International Conference on Solid State Devices and Materials, SSDM-8049, Sep., 2010, Tokyo, Japan (Invited).

27.    何京諭、王國禎*高深寬比矽基奈米孔洞陣列元件製備 第十四屆奈米工程暨微系統技術研討會, A01-02. (2010)

28.    張政嶢、王國禎*陽極氧化鋁膜奈米二極體,第十四屆奈米工程暨微系統技術研討會, D11-02. (2010)

29.    Li, C. W. and Wang, G. J.*, “investigation of the influences of micro vibrational stimuli and hydrophilicity of a scaffold on a bovine endothelial cell culture,” Proceedings of the ASME 4th International Conference on Micro- and Nanosystems, 10-DETC-28115, Montreal, Quebec, Canada. (2010)

30.    Wang, G. J.*, Lin, Y. H., and Chang, K., “A Novel Chip-on-Glass method for Slim LCD Packaging,” Proceeding of the 2010 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, (2010)

31.    李靜雯、王國禎*奈米結構與微水平震動平台對細胞生長之影響研究 2009年生物醫學工程科技研討會(2009)

32.    林祐弘、王國禎,薄型化平面顯示器之新玻璃覆晶封裝技術,中國機械工程學會第二十六屆全國學術研討會 (2009)

33.    陳國揚、王國禎,” 3D奈米結構染料敏化太陽能電池,中國機械工程學會第二十六屆全國學術研討會 (2009)

34.    Wang, G. J., Chen, G. Y., Lin, Y. C., " A Lab-on-a-Chip Capillary Network for Red Blood Cell Diagnosis," Proceedings of the ASME 3rd International Conference on Micro- and Nanosystems, 09-DETC-87299, San Diego, California, USA. (2009)

35.    周世瑋、王國禎,新型3D奈米結構光觸媒製備 第十三屆奈米工程暨微系統技術研討會, 11-1216. (2009)

36.    王啟光、王國禎,類金屬氧化物場效電晶體之新型紅外線感測器 第十三屆奈米工程暨微系統技術研討會, 07-1217. (2009)

37.    Wang, G. J. and Lin, Y. D., “A 3-Dimensional Nanobiosensor Based on an Anodic Aluminum Oxide Template,” Proceeding of the Nanotech 2009, #284, May 3-7, Houston, Texas, USA. (2009)

38.    Hsu, C. W. and Wang, G. J., “Fabrication of Patterned Array of Alumina-Metal Coaxial Nanorods,” Proceeding of the 2009 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, #1001. (2009)

39.    林侑達、王國禎*以陽極氧化鋁模板製備3D均勻分布之奈米金粒子生物感測器 2008年生物醫學工程科技研討會(2008)

40.    Lee, J. W., Wang, G. J.*, Lin, Y. C., Hsu, S. h., Hung, H. S., “Fabrication of orderly nanostructured plga scaffolds using anodic aluminum oxide templates,” 2008年生物醫學工程科技研討會(2008)

41.    林晏成、王國禎、徐善慧、洪慧珊,表面奈米結構之生物可降解人工微血管支架製作 2008年生物醫學工程科技研討會(2008)

42.    Sheu, Z. W. and Wang, G. J.*, “Fabrication of high aspect ratio alumina-metal coaxial nanorod arrays through electroforming,” 中國機械工程學會第二十五屆全國學術研討會 (2008)

43.    Wang, G. J.* and Sheu, Z. W., “Fabrication of patterned array of alumina-metal coaxial nanorods,” 2008第六屆全國精密製造研討會, 崑山科技大學 (2008)

44.    Wang, G. J., Chien, M. C., "Nanopore size estimation using electrochemical impedance spectroscopy analysis," Proceedings of the ASME 2nd International Conference on Micro- and Nanosystems, 08-DETC-49699, New York City, USA. (2008)

45.    Wang, G. J., "A Novel Chloroplastmimic Photovoltaics Powered by Proton Motive Force," Proceedings of the 8th Emerging Information and Technology Conference, Tainan, Taiwan. (2008)

46.    Hsueh, C. C., Wang, G. J., Hsu, S. h, Hung, H. S., “Fabrication of nanostructured PLGA scaffolds using anodic aluminum oxide templates,” Proceeding of the 2008 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, #1091. (2008)

47.    王國禎*、陳逸宏,以直立式奈米碳管陣列提升TiO2光觸媒之光催化效能 中國機械工程學會第二十四屆學術研討會,E02-0013(2007)

48.    H. T. Chen and G. J. Wang*, " Fabrication of 3D Nano-structured Indium Tin Oxide Films by RF Magnetron Sputtering ",中國機械工程學會第二十四屆學術研討會,E02-0012(2007)

49.    薛丞智、王國禎*、徐善慧、洪慧珊, 以陽極氧化鋁模模板製備圖案化生物可降解奈米生醫材料,中國機械工程學會第二十四屆學術研討會,E07-0001(2007)

50.    Wang, G. J., Shueh, C. C., "Fabrication of PLGA Microstructures Made Up of Circular Microchannels Using Soft Lithography," Proceedings of the ASME 1st International Conference on Micro- and Nanosystems, 07-DETC-34321, Las Vegas, USA. (2007)

51.    Wang, G. J., Shueh, C. C., "A Novel Chloroplastmimic Photovoltaics with Full Visible Spectrum Operation," Proceedings of the ASME 1st International Conference on Micro- and Nanosystems, 07-DETC-34322, Las Vegas, USA. (2007)

52.   林宴成、陳國揚、王國禎,以流體力學模擬血球在微血管晶片中之運動,第十屆工程科技與中西醫學應用研討會(2007)

53.    薛丞智、王國禎、徐善慧、洪慧珊,以陽極氧化鋁模結合真空抽氣法製備PLGA奈米生醫材料,第十屆工程科技與中西醫學應用研討會(2007)

54.    Wang, G. J., Ho, K. H., Hsueh, C. C., “Biodegradable polylactic acid (PLA) microstructures for scaffold applications,” Proceeding of the 2007 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, pp 260-263. (2007)

55.    Wang, G. J., Chen, W. Z., Chang, K., “A two-step etching method to fabricate nanopores in silicon,” Proceeding of the 2007 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, pp 169-172. (2007)

56.    Wang, G. J., Chen, W. Z., Lee, M. W., “A Novel Chloroplastmimic Photovoltaics with Full Visible Spectrum Operation,” Taiwan-Japan Bilateral Symposium on Research and Education of Nanotechnology, Tokyo, Japan. (2006)

57.    Chien, M. C., Yang, F. C., and Wang, G. J.*, “Modeling of ion diffusion induced current through a nanochannel”, European Nano Systems 2006. Dec. 14-15, Paris, France.

58.    Fan, J. Y., Yang, F. C., Chien, M. C., and Wang, G. J.*, “Experimental investigation on the bi-directional growing mechanism of the foils laminate approach in aao fabrication,” European Nano Systems 2006. Dec. 14-15, Paris, France.

59.    Wang, G. J.* and Fan, J. Y., “Growing Nano-Capsule Array inside an Alumina Foil by the Laminate Foils Approach,” 第九屆奈米工程暨微系統技術研討會, (2006)

60.    王國禎*、陳維正,離子滲透驅動之仿葉綠體機制新太陽能光電池,” 第九屆奈米工程暨微系統技術研討會, (最佳論文獎) (2006)

61.    陳維正、王國禎、廖俊旺、鍾婷婷、陳逸宏、廖炳創、林哲聖、陳鯤兆,微奈米化板藍根之效能評估,第九屆工程科技與中西醫學應用研討會,(優勝)(2006)

62.    何官璇、王國禎、徐善慧、王冠卜,具圓形管道之組織工程人工微血管支架製作與細胞培養,第九屆工程科技與中西醫學應用研討會,(佳作)(2006)

63.    Wang, G. J., Lin, Y. C., Lin, G. S., “Ultra Fine Pitch Flat Panel Display Packaging Using 3mM Conductive Particles,” Proceeding of the 2006 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, pp 20-24. (2006)

64.    Wang, G. J., Lin, Y. C., Lin, G. S., “ A Novel Contact Resistance Model of Anisotropic Conductive Film For FPD Packaging,” Proceeding of the 2006 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, pp 105-109. (2006)

65.    Wang, G. J. and Chang, W. C., “Imitation of the ion diffusion and ion pumping mechanisms of a living cell by nanoporous alumina membrane,” European Nano Systems 2005, Dec. 14-16, Paris, France.

66.    Wang, G. J. and Peng, C. S., “Control Porous Pattern of Anodic Aluminum Oxide by Foils Laminate Approach,” European Nano Systems 2005, Dec. 14-16, Paris, France.

67.    Wang, G. J., “Structure Optimization, Fabrication, and Cell Seeding of Microvessel Scaffold for Tissue Engineering,” 1st International Forum of Tissue Engineering and Clinical Adult Stem Cell Therapy, Taichung, Taiwan. (2005)

68.    王國禎、彭及聖,“以鋁疊層法製作圖案化陽極氧化鋁膜板”,第九屆奈米工程暨微系統技術研討會。(2005)

69.    王國禎、張文喬、楊錫杭,“人工離子幫浦”,第九屆奈米工程暨微系統技術研討會。(2005)

70.    Wang, G. J. and Liu H. R.,“Piezoelectric Actuated Multiple Channels Optical Switch, ” Proceeding of the 2005 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, pp 268-272. (2005)

71.    Wang, G. J., Chang, J. H., and Yang H., “Triplex-Pumping CD-Like Microfludic Platform with Parabolic Microchannels,” Proceeding of the 2005 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, pp 49-55. (2005)

72.    王國禎、劉鴻儒,壓電驅動之多通道光開關之設計與製作中國機械工程學會第二十屆學術研討會(2004)

73.    王國禎、羅國寧,銅化學機械研磨之灰色預測批次控制中國機械工程學會第二十屆學術研討會(2004)

74.    王國禎、張峻豪、楊錫杭,三重推動力新型分離晶片平台中國機械工程學會第二十屆學術研討會(2004)

75.    Chen, S. N., Wang, G. J., Yu, W. C., “Analytic Modeling and Experimental Verification of Thin-film Piezoelectric Vibration-Induced Micro Power Generator,” The 2004 ASME International Mechanical Engineering Congress, Paper # 59543. (2004)

76.    Wang, G. J., Lin, B. S., Chang, K., “Neural Network Based Run-To-Run Process Controller For Copper Chemical Mechanical Polishing”, The 2004 ASME International Mechanical Engineering Congress, Paper # 59546. (2004)

77.    Wang, G. J., and Hsu, C. C., “Toward A Comprehensively Interdisciplinary Nanoscience and Nanotechnology Personnel Training Program,” Proceeding of the 2004 International Conference on Engineering Education and Research, pp. 773-778. (Plenary Session) (2004)

78.    徐一峰、王國禎、趙啟南、陳弘育、洪瑞華,JSR負型光阻製作組織工程之人工微血管 第七屆工程科技與中西醫學應用研討會,pp. 51(佳作) (2004)

79.    Wang, G. J., Chen, C. L., Hsu, S. H., and Chiang, Y. L., “Bio-MEMS Fabricated Artificial Vascular Network for Tissue Engineering,” Proceeding of the 2004 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, Montreux, Switzerland, pp. 355-360. (2004)

80.    Yu, W. C., Wang, G. J., and Chang, C. C., “Discrete Sliding Model Control with Forgetting Dynamic Sliding Surface,” ICICS 2003. (2003)

81.    Wang, G. J. , Yu, W. C., and Chang, C. C., “Model Reference Based Sliding Mode Controller with Application to AC Servomotors Precise Positioning,” ICICS 2003. (2003)

82.    楊慕文,王國禎精密加工技術於質譜儀新式電噴灑頭之製造應用中國機械工程學會第二十屆學術研討會E08-07(2003)

83.    徐文浩,王國禎,張耀仁,楊錫杭,以金屬光罩法製作導電層之圓盤式電泳晶片分離系統中國機械工程學會第二十屆學術研討會E01-27(2003)

84.    王國禎,林伯勳,銅製程CMP之類神經網路批次製程控制中國機械工程學會第二十屆學術研討會E03-04(2003)

85.    Yu, W. C. and Wang, G. J., “Discrete Suboptimal Frequency-Shaped Sliding Mode Control, “ ICMT 2003. (2003)

86.    Wang, G. J., Lin, Y. H., Yang, H. H., Pan, C. T., “Design And Fabrication Of A High Efficiency Piezoelectric Vibration-Induced Micro Power Generator,” The 2003 ASME International Mechanical Engineering Congress, Paper # 42682. (2003)

87.    Yu, W. C. and Wang, G. J., “Discrete Sliding Mode Controller Design Based on the Suboptimal LQR Approach,“The 2003 ASME International Mechanical Engineering Congress, Paper # 42589. (2003)

88.    陳季良,江郁霖,王國禎,徐善慧, 以生醫微機電技術製作組織工程之人工微血管,” 第六屆工程科技與中西醫學應用研討會。(2003)

89.    徐文浩,王國禎,張耀仁,楊錫杭, 電場力與離心力交互作用之新型類光碟機式微電泳生醫分離系統,” 第九屆化學感測器科技研討會,pp. 27 (論文獎)(2003)

90.    徐文浩,王國禎,張耀仁,王建良, 薄膜式電泳生物晶片製作,” 第九屆化學感測器科技研討會,pp. 277(2003)

91.    Yu, W. C. and Wang, G. J., 2003, “Design of Discrete-type Heuristic self-tuning PID Controller on AC Servomotor Control,”自動控制研討會,pp 1072-1076(2003)

92.    王國禎,楊錫杭,林盈旭,潘正堂, 薄膜式壓電型微發電機設計與製程研究,” 2002奈米工程暨微系統技術研討會,3C-7(2002)

93.    王國禎,胡雅晴, 類神經網路式Run-to-Run控制器在銅CMP之應用,” 中國機械工程學會第十九屆學術研討會E3-004(2002)

94.    王國禎,陳皇仁, 複合式光學元件設計與製作,” 中國機械工程學會第十九屆學術研討會E1-011(2002)

95.    王國禎,李建誼,黃國政, 光學鏡片成型後表面殘留應力層之檢測,” 中國機械工程學會第十九屆學術研討會D7-006(2002)

96.    Wang, G. J., Cheng, W., Yang, J, and Pan, C., “Aspheric Micro-Lens-Array fabricated by excimer laser dragging,” The 2002 ASME International Mechanical Engineering Congress, Paper # 34306. (2002)

97.    Tsai, J. C. and Wang, G. J., “Design and Prototyping A Wireless Autonomous Guided Vehicle in Undergraduate Mechanical Design Practice," Proceedings of the 2002 International Conference on Engineering Education, paper No. 0309, Manchester, United Kingdom. (2002)

98.    Tsai, J. C. and Wang, G. J., Chiou, S. J., Chen, J. L., Fann, K. J., and Chen, T. Y., “A Curriculum in Machine Tools Technologies for Mechanical Engineering Graduates,” Proceedings of the 2002 International Conference on Engineering Education, paper No. 0219, Manchester, United Kingdom. (2002)

99.    Wang, G. J., S. Y. Wang, and Chin, C. H., “Fabrication and Modeling of the Gray-scale Mask Based Aspheric Refraction Microlens Array,” Proceeding of the 2002 Design, Test, Integration and Packaging of MEMS/MOEMS Conference, France, pp. 765-775. (2002)

100.王述宜,王國禎,秦志賢, 灰階非球面折射式微透鏡陣列之UV-LIGA製程技術,” 中國機械工程學會第十八屆學術研討會. (2001)

101.楊詔中,程偉倫,潘正堂,王國禎 準分子雷射拖拉法於3D微結構加工成型之應用,” 中國機械工程學會第十八屆學術研討會. (2001)

102.王國禎 游政雄, 化學機械研磨之類神經網路式Run-to-Run製程控制,” 中國機械工程學會第十八屆學術研討會. (2001)

103.王國禎 張俊卿,余文俊, " 模式參考強健離散動態滑動模式控制器設計," 中國機械工程學會第十八屆學術研討會. (2001)

104.余文俊、王國禎 次佳化離散滑動模式控制,” 中國機械工程學會第十八屆學術研討會. (2001)

105.余文俊、王國禎 離散模式參考參數自調PID控制器,” 中國機械工程學會第十八屆學術研討會. (2001)

106.Wang, G. J. and Chou, M. H., “A Neural-Taguchi Based Quasi Time-Optimal Control Strategy For Chemical Mechanical Polishing Processes,” 2001 ASME International Mechanical Engineering Congress, Paper # EEP-15-1. (2001)

107.王國禎 張俊卿,余文俊, " 模式參考離散動態滑動模式控制器設計," 第十二屆全國自動化科技研討會, 4304C-4. (2001)

108.王國禎 游政雄,楊耀眾,謝佳璋, 四行程引擎最佳點火角度之類神經網路全域控制,” 第十二屆全國自動化科技研討會, 4201C-2. (2001)

109.王國禎 游政雄, 以類神經田口法為基礎之化學機械研磨終點偵測技術,” 第十二屆全國自動化科技研討會, 4202B-1. (2001)

110.Chen, J. L., Wang, G. J., Guo, B. H., and Tsai, M. S., “Process Parameters analysis for CMP Pad Conditioning,” Proceeding of the Symposium on Nano Device Technology 2001, HsinChu, Taiwan, pp 134-137. (2001)

111.王國禎 張俊卿,宋世偉, " 模式參考離散動態滑動模式控制法則," 2000工業自動控制與電力應用研討會論文集, 義守大學, pp. E2-13~E1-23. (2000)

112.王國禎 游政雄,謝佳璋,陳柏熹, 類神經網路在四行程引擎最佳點火角度控制應用,” 2000工業自動控制與電力應用研討會論文集, 義守大學, pp. E1-8~E1-16. (2000)

113.王國禎 周孟賢, " 化學機械研磨時控製程參數最佳化技術," 中國機械工程學會第十七屆學術研討會新興工程技術組論文集, 高雄第一科技大學, pp 478-494. (2000)

114.王國禎 馮毓鈞, 江雨龍, " 光學微影參數設定最佳化," 中國機械工程學會第十七屆學術研討會新興工程技術組論文集, 高雄第一科技大學, pp 481-486. (2000)

115.王國禎 宋世偉, " 奇異擾動動態滑動模式控制," 中國機械工程學會第十七屆學術研討會控制與自動化組論文集, 高雄第一科技大學. (2000)

116.王國禎 徐俊豪, 張亢治, " 以二維雙邊指數函數為邊緣模型之次像素邊緣檢測新技術," 中國機械工程學會第十七屆學術研討會製造與材料組論文集, 高雄第一科技大學, pp 373-380. (2000)

117.王國禎 徐俊豪, 張亢治, " 強健之一維次像素邊緣檢測新技術," 中國機械工程學會第十七屆學術研討會製造與材料組論文集, 高雄第一科技大學, pp 561-568. (2000)

118.Wang, G. J., Chen, J. L., and Hwang, J. Y., “A New Optimization Strategy For Chemical Mechanical Polishing Process,” Proceeding of the 2000 ASME International Mechanical Engineering Congress, Orlando, Florida. (2000)

119.Tsai, J. C. and Wang, G. J., August, “Prototyping An Autonomous Guided Vehicle in Undergraduate Mechanical Design,” Proceeding of the 2000 International Conference on Engineering Education, paper WD1-5, Taipei, Taiwan. (2000)

120.Wang, G. J. and Yeh, J. Y., “A Robust Sliding Mode Controller for Singular Perturbation System,” Proceeding of The Sixth International Conference on Automation Technology, Taipei, pp 609-616. (2000)

121.Wang, G. J., Wu, J. G., Chang K., “A New Neural Network Based Parameters Optimization Method,” Proceeding of The Sixth International Conference on Automation Technology, Taipei, pp 703-710. (2000)

122.王國禎, 黃朱瑜, 陳昭亮, 蔡明蒔, " CMP製程參數最佳化技術", 中國機械工程學會第十六屆學術研討會新興科技組論文集, 清華大學, pp 517-524. (NSC-88-2212-E-005-016) (1999)

123.王國禎, 周孟賢, " 多層前饋類神經網路參數自調學習法則", 中國機械工程學會第十六屆學術研討會控制與自動化組論文集, 清華大學, pp. 327-334. (1999)

124.王國禎, 葉智鎰, “奇異擾動系統之滑動模式控制器設計, ” 第十一屆全國自動化科技研討會論文集, pp 307-314. (1999)

125.王國禎, 吳嘉哲, “類神經網路式參數最佳設計法則及其在線性馬達精密定位控制之應用, ” 第十一屆全國自動化科技研討會論文集, pp 1161-1168. (1999)

126.Tsai, J. C. and Wang, G. J., and Chiou, S. J., "Teaching Undergraduate Mechatronics in Mechanical Design," Proceedings of the 1999 International Conference on Engineering Education, paper number 242, Ostrava, Czech Republic. (1999)

127.Wang, G. J. and Huang, C. Y, “A New Optimization Approach for CMP Process, “Proceeding of the 6th Symposium on Nano Device Technology, Taiwan, pp. 119-119.  (NSC-88-2212-E-005-016) (1999)

128.Wang, G. J. and Chen, T. J., “ Cascade Steepest Descendant Learning Algorithm for Multilayer Feedforward Neural Network,” Proceeding of the International Joint Conference of Neural Networks’99, paper # 753, Washington, USA. (1999)

129.Wang, G. J. and Lee, T. C., “Neural Network Cross-coupled Control System with Application on Circular Tracking of Linear Motor X-Y Table,” Proceeding of the International Joint Conference of Neural Networks’99, paper # 754, Washington, USA. (1999)

130.王國禎、黃朱瑜, " 輻射基底函數式類神經模糊網路", 1999自動控制研討會, 台中, pp. 278-283. (1999)

131.王國禎、陳盈達, ," 啟發式類神經模糊學習控制系統", 中國機械工程學會第十五屆學術研討會控制與自動化組論文集, 成功大學, pp. 207-214. (1998)

132.王國禎、陳在均, " 類神經網路二階段式最陡負梯度學習法則", 中國機械工程學會第十五屆學術研討會控制與自動化組論文集, 成功大學, pp. 379-386. (1998)

133.王國禎、李宗璟, " 類神經網路交叉耦合控制系統及其在雙軸線性馬達循圓控制之應用", 中國機械工程學會第十五屆學術研討會控制與自動化組論文集, 成功大學, pp. 69-76 (NSC-87-2212-E-005-009). (1998)

134.Wang, G. J. and Tsai, M. S., “Heuristic Neural Network Learning Control System with Application on AC Servo Motor Precise Positioning,” Proceeding of the 1998 International Conf. On Mechatronic Technology, pp. 275-280 (NSC-86-2212-E-005-015). (1998)

135.Wang, G. J. and Fong, T. T., " Neural Network-Based Self-Tuning PI Controller for Precise Motion Control of PMAC Motors," Proceeding of the 1998 International Conf. On Mechatronic Technology, pp. 349-354. (NSC-86-2212-E-005-024). (1998)

136.Tsai, J. C., Chein, R., Chen, T. Y., and Wang G. J., Feb. A Trail on College Curriculum in Mechanical Design and Prototyping, 1St UICEE Annual Conference on Engineering Education, Monash University, Clayton, Melbourne, VIC 3168, Australia. (1998)

137.Wang, G. J., and Wang, C. C., "Reconstruction of Sculptured Surface on Reverse Engineering," Proceeding of the 1997 ASME Computers in Engineering Conference, Sacramento, California, USA. DETC97/CIE-4288 (NSC-86-2212-E-005-015). (1997)

138.王國禎、馮傳宗, " 交流伺服馬達類神經網路式PI自調精密定位控制", 中國機械工程學會第十四屆學術研討會現代工程技術組論文集, 中央大學,pp. 325-332 (NSC-86-2212-E-005-024). (1997)

139.王國禎、蔡木樹, " 啟發式類神經網路學習控制在AC伺服馬達強健控制之應用", 中國機械工程學會第十四屆學術研討會控制與自動化組論文集, 中央大學,pp. 210-217 (NSC-86-2212-E-005-015). (1997)

140.簡瑞與﹐蔡志成﹐王國禎﹐張銘永﹐林麗章﹐大學院校製作自動化及機電整合科技教育改進計畫執行成果之探討﹐中華民國第十三屆科學教育學術研討會﹐台北市. (1997)

141.王國禎、陳琮祺, " 前饋式類神經網路進階參數自調學習法則", 中國機械工程學會第十三屆學術研討會系統控制組論文集, 台灣大學,pp. 334-343. (1996)

142.王國禎、楊雲仁, " MDRS網路在智慧型影像辨識系統之應用", 中國機械工程學會第十三屆學術研討會系統控制組論文集, 台灣大學,pp. 273-281. (1996)

143.Wang, G. J., Tsai, J. C., Tzeng, P. C., and Cheng, T. C., "Neural-Taguchi Method for Robust Design," Proceedings of the 1996 ASME Computers in Engineering Conference, 96-DETC/CIE-1327, Irvine, California, USA (NSC 86-2212-E005-015). (1996)

144.Tseng, P. C. and Wang, G. J., "Tool Failure Recognition in End Mill," Proceedings of the Fourth International Conference on Automation Technology, AUTOMATION'96, VOL. I, pp 743-750, Hsinchu, Taiwan. (1996)

145.王國禎、黃仲麒, "智慧型類神經網路之渦輪引擎控制系統", 中國航空太空學會第三十七屆學術研討會論文集,淡江大學, pp. 553-562 (NSC 83-0424-E005-001). (1995)

146.王國禎、黃仲麒, "渦輪噴射引擎之類神經網路全域控制", 中國航空太空學會第三十七屆學術研討會論文集,淡江大學, pp. 543-551 (NSC 83-0424-E005-001). (1995)

147.王國禎、陳琮祺, ,"類神經網路適應學習演算法", 中國機械工程學會第十二屆學術研討會系統控制組論文集, 中正大學,pp. 181-185. (1995)

148.王國禎、陳忠信, "啟發式類神經網路學習控制系統", 中國機械工程學會第十二屆學術研討會系統控制組論文集, 中正大學,pp. 197-204 (NSC 83-2212-E005-003). (1995)

149.王國禎、盧俊宏, " 智慧型三度空間曲面資料擷取系統", 中國機械工程學會第十二屆學術研討會系統控制組論文集, 中正大學,pp. 467-477. (1995)

150.Wang, G. J., and Luh, C. F., "Neural Network Approach for Repetitive Control System Design,"  the 1995 ASME International Mechanical Engineering Congress and Expositon, November, San Francisco, DSC-Vol. I, pp. 573-560 (NSC 83-0401-E005-038). (1995)

151.陳柏熹、王國禎, "類神經網路在飛行縱向控制系統上之應用",中華民國第二屆模糊理論與應用研討會論文集,pp 587-598 (NSC-83-0424-E005-001). (1994)

152.王國禎、陳志成, "反向傳播型類神經網路準最佳學習法則", 1994中華民國自動控制研討會論文集,pp 77-80. (1994)

153.Wang, G. J. and Liu, S. H., "A New Fuzzy-Neural Learning Control Algorithm", The Third International Conference on Automation Technology, AUTOMATION'94, Taipei, Taiwan, Vol. III, pp115-120. (1994)

154.Wang, G. J., and Cheng, C. C., "Optimal Learning Algorithm for Multilayer Feedforward Neural Networks," IEEE World Congress on 

      Computational Intelligence, Orlando, Flordia, Vol. II, pp 850-855. (1994)

 

(D)專業雜誌文章、專書

  • 王國禎 、楊烽正、余文俊, ” 視窗介面微電腦感測與控制應用實務 ” , 2003 ,全華圖書公司。
  • 王國禎,” 生泰合成工業股份有限公司 ” ,經濟部技術處申請執行科技專案管理制度評鑑 - 研發管理個案實例報告, 1-12 頁, 2003 年 12 月。
  • 簡瑞與、林麗章、王國禎、蔡志成、邱顯俊、陳昭亮與蔡明蒔,2000 年二月,“ 化學機械研磨製程與實驗機台之研究”,機構與機器設計,第十一卷第一期,13-20 頁。
  • 陳定宇、林麗章、王國禎、曾柏昌、蔡志成與邱顯俊,1998 年二月,“CNC 車削中心C 軸研發現況” ,機構與機器設計,第九卷第一期,8-14 頁。
  • 王國禎, 1996 “ 自動化次系統 - 實習教材 ,” 教育部製造業自動化科技教育改進計畫。
  • 王國禎, 1994 , “ 工業電子感測器 - 實習教材 ,” 教育部製造業自動化科技教育改進計畫。

(E)專利

專利名稱
國別
專利號碼
發明人
專利期間
精密拋光研磨機撓性承載器裝置 ROC

P78030

蔡志成、王國禎、侯思吉、蔡沛原、林耕舜、王星翔  
精密線性拋光研磨機裝置 ROC

新型第95204985

蔡志成、王國禎、侯思吉、蔡沛原、林耕舜、王星翔

95,8-105,3

晶圓化學機械研磨時控製程 ROC

221435

王國禎、蔡志成陳昭亮

93,10-110,1

單馬達多軸向之傳動離合裝置 ROC

194123

蔡志成、王國禎
戴志光

91,9-102,1

晶圓化學研磨拋光製程 ROC

164935

王國禎、蔡志成陳昭亮

91,10-108,8

Time Optimal Control Strategy for CMP Processes USA

6564116 B2

王國禎、蔡志成陳昭亮

90,4-110,4