Journal of Mechanical Engineering and Automation

Journal of Mechanical Engineering and Automation publishes papers of high quality through critical reviews and is intended to become a quality international journal in the field of mechanical engineering and automation. The journal features a mix of experimental, numerical, and theoretical articles dealing with all aspects of the field.


Gou-Jen Wang

Editorial Board Member of Journal of Mechanical Engineering and Automation

Professor, National Chung-Hsing Univeraity, Taiwan

Research Areas

Biomedical Microdevices, Microvessel Scaffold, Anodic Aluminum Oxide Fabrication and Applications, Chloroplastmimic Photovoltaics, Dye Sensitized Solar Cell

Education

1991Ph.DMechanical Engineering, UCLA, CA, USA
1986M. S.Mechanical Engineering, UCLA, CA, USA
1981B. S.Mechanical Engineering, National Taiwan University

Experience

2003Visiting Scholar, U. of Washington, WA, USA
2006Visiting Scholar, U. of Washington, WA, USA
2010Director, Institute of Biomedical Engineering, NCHU
2008Distinguished Professor, Mechanical Engineering, NCHU
1999Professor, Mechanical Engineering, NCHU

Academic Achievement

Conference Chair, 2008 Microfabrication, Integration and Packaging Conference (Nice, France)
Committee member, Design, Test, Integration and Packaging of MEMS/MOEMS Conference (Since 2005)
Committee member of Micro & Nano System Division, American Society of Mechanical Engineers

Publications: Conferences/Workshops/Symposiums/Journals/Books

[1]  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, Vol. 6, pp 1-8. (2011) (SCI, Impact Factor=4.967)
[2]  Chang, C. Y. and Wang, G. J.*, "Anodic Aluminum Oxide Diodes, " Japanese Journal of Applied Physics, in press (2011) (SCI, Impact Factor=1.018)
[3]  Lai, M. H., Lee, M. W.*, Wang, G. J., Tai, M. F., "Photovoltaic performance of new-structure ZnO-nanorod dye-Sensitized solar cells, " Inter. J. Electrochemical Science, Vol. 6, pp. 2122-2130. (2011) (SCI, Impact Factor=2.808)
[4]  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, Vol. 196, pp. 6603-6608. (2011) (SCI, Impact Factor=4.283)
[5]  Lin, Y. H., Chang, K. J., and Wang, G. J.*, "A Novel Chip-on-Glass method for Slim LCD Packaging, " Microsystem Technologies, Vol. 17, pp. 685-691. (2011) (SCI, Impact Factor=1.069)
[6]  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, Vol. 10, pp. 191-196. Cover page (2011) (SCI, Impact Factor=1.864)
[7]  Wang, C. G. and Wang, G. J.*, "A MOSFET-like infrared sensor for the enhancement of photoconductivity and photoresponsivity, " Current Nanoscience, Vol. 6, No. 6, 648-653. (2010) (SCI, Impact Factor=1.879)
[8]  Wang, G. J.*, Lin, Y. C., and Hsu, S. h., "The Fabrication of PLGA Microvessel Scaffolds with Nano-Patterned Inner Walls, " Biomedical Microdevices, Vol. 12, pp. 841-848. (2010). (SCI, Impact Factor=3.386).
[9]  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=3.644).
[10]  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, Vol. 19, No. 4, pp. 849-853 (2010). (SCI, Impact Factor=2.157).
[11]  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, Vol. 9, pp 585-591. (2010) (SCI, Impact Factor=3.504).
[12]  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, Impact Factor=1.345)
[13]  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, Vol. 2010, Article ID 497095, 5 pages, (DOI: 10.1155/2010/497095), (2010) (SCI, Impact Factor=1.345)
[14]  Tubtimtae, A., Wu, K. L., Tung, H. Y., Lee, M. W.*, Wang, G. J., "Ag2S quantum dot-sensitized solar cells, " Electrochemistry Communications, Vol. 12, pp. 1158-1160 (2010) (SCI, Impact Factor=4.282)
[15]  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, Vol. 11, pp. 843-850. (2009) (SCI, Impact Factor=3.386)
[16]  Chen, H. T. and Wang, G. J.*, "Fabrication of 3D Nano-structured ITO Films by RF Magnetron Sputtering, " Current Nanoscience, Vol. 5, No. 3, pp. 297-301. (2009) (SCI, Impact Factor=1.879)
[17]  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, Vol. 84, pp. 1493-1499. (2008) (SCI, Impact Factor=2.679)
[18]  Chien, M. C., Wang, G. J.*, Yu. M. C., "Nanopore Size Estimation Using Electrochemical Impedance Spectroscopy Analysis, " Japanese Journal of Applied Physics, Vol. 47, No. 9, pp. 7459-7463. (2008) (SCI, Impact Factor=1.018)
[19]  Wang, G. J.*, Chen, H. T., Yang, H., "Fabrication of crystalline indium tin oxide nanobaskets electrode using AAO template", Japanese Journal of Applied Physics, Vol. 47, No. 7, pp. 5727-5729. (2008) (SCI, Impact Factor=1.018)
[20]  Wang, G. J.*, Ho, K. H., Hsueh, C. C., "Biodegradable polylactic acid (PLA) microstructures for scaffold applications, " Microsystem Technologies, Vol. 14, pp. 989-993. (2008) (SCI, Impact Factor=1.069)
[21]  Wang, G. J.*, Chen, W. Z., Chang, K., "A two-step etching method to fabricate nanopores in silicon, " Microsystem Technologies, Vol. 14, pp. 925-927. (2008) (SCI, Impact Factor=1.069)
[22]  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) (SCI, Impact Factor=2.276)
[23]  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) (SCI, Impact Factor=1.018)
[24]  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) (SCI, Impact Factor=3.386)
[25]  Wang, G. J.*, Lin, Y. C., Lin, G. S., "Ultra Fine Pitch Flat Panel Display Packaging Using 3 m Conductive Particles, " Microsystem Technologies, Vol. 13, No. 11-12. pp. 1471-1476. (2007) (SCI, Impact Factor=1.069)
[26]  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) (SCI, Impact Factor=2.557)
[27]  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) (SCI, Impact Factor=1.069)
[28]  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) (SCI, Impact Factor=1.068)
[29]  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) (SCI, Impact Factor=1.069)
[30]  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) (SCI, Impact Factor=0.219)
[31]  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) (SCI, Impact Factor=1.068)
[32]  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) (SCI, Impact Factor=0.944)
[33]  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) (SCI, Impact Factor=0.219)
[34]  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) (SCI, Impact Factor=0.452)
[35]  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) (SCI, Impact Factor=1.351)
[36]  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) (SCI, Impact Factor=1.068)
[37]  Wang, G. J.* and Hsu, Y. F., "Structure Optimization of Microvascular Scaffolds" Biomedical Microdevices, Vol. 8, No. 1, pp 51-58. (2006) (SCI, Impact Factor=3.386)
[38]  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) (SCI, Impact Factor=3.386)