1. Chou, S.-F., and Hsieh, S.-S., “An Investigation o­n Heat Transfer Performance of Bended Water Heat Pipes” Proceedings of National Science Council(ROC), Vol.VII, No.5, 1979, pp.440-454.
  2. Chou, S.-F., and Hsieh, S.-S., “Heat Transfer Performance of Bended Straight Water Heat Pipes and Their Comparisons,” Chinese Learning and Modern Civilization Series, Vol.XII , Feb., 1983, pp.296-319.
  3. Hsieh, S.-S., Wijeysundera, N. E., and Savery, C. W., “Analytical Entrainment Model of Confined Two Phase Air-Water/Steam-Water Jets” Journal of the Chinese Society of Mechanical Engineers, Vol.6, No.1, 1985, pp.73-81.
  4. Hsieh, S.-S., Christensen, R. N., and Carey, W. E., “A Simplified Computational Aid for Estimation of Dose Rate During Nuclear Accidental Release” Nuclear Science Journal, Vol.23, No.2, 1986, pp.121-127.
  5. Hsieh, S.-S., “Confined Turbulent Air Flow with Asymmetrically Roughened Surface: Mean Flow Parameters” Journal of the Chinese Society of Mechanical Engineers, Vol.7, No.4, 1986, pp.211-215.
  6. Hsieh, S.-S., Wijeysundera, N. E., and Savery, C. W., “Flow Field Measurements and Physical Process in Confined Air-Water Jet” Journal of the Chinese Institute of Engineers, Vol.9, No.5, 1986, pp.531-520.
  7. Hsieh, S.-S., and Liauh, C.-T., “Friction Similarity Law in Repeated-Rib Roughened Channels” the Chinese Journal of Mechanics , Vol.7, No.6, 1986, pp.473-479.
  8. Hsieh, S.-S., Liauh, C.-T., and Ku, A., “Thermal Analysis of the Performance of Helical-Type, Roughened, Double-Pipe Heat Exchangers” Applied Energy, Vol. 26, No. 1, 1987, pp. 67-75.
  9. Hsieh, S.-S., Liauh, C.-T., and Ku, A., “Heat Transfer Coefficients of Double Pipe Heat Exchangers with Helical Type Roughened Surface” Journal of Heat Recovery System & CHP, Vol.7, No.2, 1987, pp.119-127.
  10. Hsieh, S.-S. and Huang, D.-Y., “Flow Characteristics of Laminar Separation o­n Surface Mounted Ribs” AIAA Journal, Vol.25, No.6, 1987, pp.819-823.
  11. Huang, D.-Y., and Hsieh, S.-S., “Analysis of Natural Convection in A Cylindrical Enclosure” Numerical Heat Transfer, Vol.12, No.1, 1987, pp.121-135.
  12. Hsieh, S.-S., “A Generalized Correlation for Thermal Design Data of Heat Pipe Heat Exchangers” International Journal of Heat and Mass Transfer, Vol.30, No.8, 1987, pp.1758-1762.
  13. Hsieh, S.-S., and Huang, D.-Y., “Numerical Computation of Laminar Separated Forced Convection o­n Surface Mounted Ribs” Numerical Heat Transfer, Vol.12, No.3, 1987, pp.335-348.
  14. Hsieh, S.-S., “Thermal Characteristics of Annular Flow with Asymmetrically Roughened Surfaces” International Journal of Heat and Fluid Flow, Vol.9, No.1, 1988, pp.78-82.
  15. Hsieh, S.-S., and Tsai, J.-T., “Transient Response of the Trombe Wall Temperature Distribution Applicable to Passive Solar Heating Systems” Energy Conversion and Management, Vol.28, No.1, 1988, pp.21-25.
  16. Hsieh, S.-S., Liauh, C.-T., and Han, W.-S., “Thermal Performances of Heat Exchangers Applicable to Waste-Heat Recovery Systems” Applied Energy, Vol.30, No.3, 1988, pp.191-200.
  17. Hsieh, S.-S., and Huang, D.-C., “Thermal Performance and Pressure Drop of Counterflow and Parallel-Flow Heat-Pipe Heat Exchangers with Aligned Tube Rows” Heat Recovery System & CHP, Vol.8, No.4, 1988, pp.343-354.
  18. Hsieh, S.-S., Han, W.-S., and Lin, S.-C., “Natural Convection of Air Layers in Vertical Annuli with Cooled Outer Wall” AIAA Journal of Thermophysics and Heat Transfer, Vol.3, No.2, April, 1989, pp.182-188.
  19. Hsieh, S.-S., “Transient Thermal Analysis of the Waterlines Effect in the Die Casting Dies” Applied Mathematical Modelling, Vol.13, No.3, May, 1989, pp.282-290.
  20. Hsieh, S.-S., and Hong, Y.-J., “Separating Flow over Repeated Surface Mounted-Ribs in A Square Duct” AIAA Journal, Vol.27, No.6, June, 1989, pp.770-776.
  21. Hsieh, S.-S., “Thermal Correlation of Turbulent Flow Over Helically Roughened Surfaces in Horizontal Annuli” International Communication in Heat and Mass Transfer, Vol.16, No.3, 1989, pp.457-467.
  22. Hsieh, S.-S., “Thermal Correlation of Natural Convection in Bottom-Cooled Cylindrical Enclosures”, AIAA Journal of Thermophysics and Heat Transfer, Vol.4, No.1, 1990, pp.123-126.
  23. Chen, J.-D, and Hsieh, S.-S., “General Procedure for Effectiveness of Complex Assemblies of Heat Exchangers” International Journal of Heat and Mass Transfer, Vol.33, No.8, pp.1667-1674, 1990.
  24. Hsieh, S.-S., Shih, H.-J., and Hong, Y.-J., “Laminar Forced Convection from Surface-Mounted Ribs” International Journal of Heat and Mass Transfer, Vol.33, No.9, pp.1987-2000, 1990.
  25. Lin, T.-Y., and Hsieh, S.-S., “Natural Convection of Opposing/Assisting Flows in Vertical Channels with Asymmetrically Discrete Heated Ribs” International Journal of Heat and Mass Transfer” Vol.33, No.10, 1990, pp.2295-2310.
  26. Hsieh, S.-S., and Huang, D. C., “Comparisons of Thermal Performance and Pressure Drop of Counterflow and Parallel-Flow Heat-Pipe Heat Exchangers with Aligned/Staggered Tube Rows” Energy Conversion and Management, Vol.30, No.4, 1990, pp.357-368.
  27. Su, C.-C., Hsieh, S.-S., and M.-C. Chiu, “A Simulation of Flow Through Wire Gauzes” International Journal of Modelling & Simulation”, Vol.10, No.3, 1990, pp.114-118.
  28. Hong, Y.-J., Hsieh, S.-S., and Shih H.-J., “Numerical Computation of Laminar Separation and Reattachment of Flow Over Surface Mounted Ribs” ASME Journal of Fluids Engineering”, Vol.113, No.2, 1991, pp.190-198.
  29. Lin, T.-Y., and Hsieh, S.-S., “Mixed Convection of Opposing/Assisting Flows in Vertical Channels with Discrete Asymmetrically Heated Ribs” AIAA Journal of Thermophysics and Heat Transfer”, Vol.5, No.3, 1991, pp.415-422.
  30. Chen, J.-D. and Hsieh S.-S. “Assessment study of Longitudinal Rectangular Plate Inserts As Tubeside Heat Transfer Augmentative Devices” International Journal of Heat and Mass Transfer, Vol.34, No.10, 1991, pp.2545-2553.
  31. Hong, Y.-J. and Hsieh. S.-S. “An Experimental Investigation of Heat Transfer Characteristics of Turbulent Flow over Staggered Ribs in a Square Duct” Experimental Thermal and Fluid Science, Vol.4, No.6, 1991, pp.714-722.
  32. Chen, J-D. and Hsieh. S.-S. “Buoyancy Effect o­n the Laminar Forced Convection in a Horizontal Tube with Longitudinal Thin Plate Insert” International Journal of Heat and Mass Transfer, Vol.35, No.1, 1992, pp.263-267.
  33. Chen, J-D. and Hsieh. S.-S. “Laminar Mixed Convection in a vertical tube with a Longitudinal Rectangular Inserts” AIAA Journal of Thermophysics and Heat Transfer, Vol.6, No.1, 1992, pp.98-104.
  34. Chen, J.D. and Hsieh. S.-S. “Laminar forced convection in Circular Duct Inserted with a Longitudinal Rectangular Plate” AIAA Journal of Thermophysics and Heat Transfer, Vol.6, No.1, 1992, pp.177-179.
  35. Hong, Y.-J. and Hsieh, S.-S. “Heat Transfer and Friction Factor Measurements in Ducts with Staggered and In-Line Ribs” ASME Journal of Heat Transfer, Vol.115, No.1, 1993, pp. 58-65.
  36. Hsieh S.-S. and Kuo, N.-H. “Analysis of Evaporation in the Presence of Composition/Temperature Gradients Induced Natural Convection” International Journal of Heat and Mass Transfer, Vol.36, No.4, 1993, pp.1097-1112.
  37. Chen, J.-D. and Hsieh, S. S. “Laminar Mixed Convection in A Horizontal Tube with a Longitudinal Square Core”, An Invited Paper, The Chinese Journal of Mechanics, Vol.9, No.1, 1993, pp.27-35.
  38. Hsieh, S.-S. and Lin, C.-C. “An Experimental Study of Laminar Entrance Flow and Heat Transfer in Finned Tube Annuli” International Journal of Heat and Mass Transfer, Vol.36, No.9, 1993, pp.2457-2471.
  39. Hsieh, S.-S. and Wen, M.-Y. “Augmentative Heat Transfer for a Vertical 2-Pass Tube through an Air Box by Use of Strip Type Inserts” International Journal of Heat and Mass Transfer, Vol.36, No.12, 1993, pp.3043-3057.
  40. Hsieh, S.-S. and Wen, M.-Y. “Numerical Computation of Thermocaplillary-Driven Convection in An Open Cylindrical Cavity with Different Aspect Ratios” International Journal of Heat and Mass Transfer, Vol.36, No.18, 1993, pp.4351-4363.
  41. Hsieh, S.-S. and Wen, M.-Y. “Evaporative Heat Transfer and Enhancement Performance of Rib-Roughened Tube Annuli with Refrigerant 114” International Journal of Heat and Mass Transfer, Vol.37, No.3, 1994, pp.425-436.
  42. Hsieh, S.-S. and Kuo, M.-T. “An Experimental Investigation of Augmentation of Tube-side Heat Transfer in a Cross Flow Heat Exchanger by Means of Strip Type Inserts” ASME Journal of Heat Transfer, Vol.116, No.2, 1994, pp.381-390.
  43. Hsieh, S.-S. and Hsu, P.-T. “Nucleate Boiling Characteristics of R-114, Distilled Water (H2O) and R-134a o­n Plain and Rib Roughened Tube Geometries” International Journal of Heat and Mass Transfer, Vol.37, No.10, 1994, pp.1423-1432.
  44. Hsieh, S.-S., Y.-J. Hong and S.-R. Jeng “3-D Laminar Forced Convection in a Rotating Square Duct with a Rib o­n Leading Wall” International Journal of Heat and Mass Transfer, Vol.37, No.15, 1994, pp.2273-2285.
  45. Hsieh, S.-S. and Wang, C.-Y. “Experimental Study of Three-Dimensional Natural Convection in Enclosures with Different Working Fluids” International Journal of Heat and Mass Transfer, Vol.37, No.17, 1994, pp.2687-2698.
  46. Hsieh, S.-S. and Hong, Y.-J. “Heat Transfer Coefficient Measurements in Orthogonally Rotating Duct with Turbulators” ASME Journal of Heat Transfer, Vol.117, No.1, 1995, pp.69-78.
  47. Hsieh, S.-S. and Wen, M.-Y. “An experimental Study of Flow Boiling Heat Transfer in Rib-Roughened Tube Annuli” ASME Journal of Heat Transfer, Vol.117, No.1, 1995, pp.185-194.
  48. Wen, M.-Y. and Hsieh, S.-S. “Saturation Flow Boiling Heat Transfer in Internally Spirally Knurled/Integral Finned Tubes” ASME Journal of Heat Transfer, Vol.117, No.1,1995, pp.245-248.
  49. Hsieh, S.-S. and Yang, S.-S. “Transient Three-Dimensional Natural Convection in a Rectangular Enclosure” International Journal of Heat and Mass Transfer, Vol.39, No.1, 1996, pp.13-26.
  50. Hsieh, S.-S. and Wen, M.-Y., “Developing 3-D Laminar Mixed Convection in a Circular Tube Inserted with Longitudinal Strips” International Journal of Heat and Mass Transfer, Vol.39, No.2, 1996, pp.299-310.
  51. Hsieh, S. -S., and Liu, W. J., “Uneven Wall Heat Flux Effect o­n Local Heat Transfer in Rotating Two-Pass Channels with Two-Oppositely Ribbed Walls,”ASME Journal of Heat Transfer, Vol.118, No.4, 1996, pp.864-876.
  52. Hsieh, S. -S., and Weng, C. -J., “Nucleate Pool Boiling from Coated Surfaces in Saturated R-134a and R-407c” International Journal of Heat and Mass Transfer,.Vol.40, No.3, 1997, pp.519-532.
  53. Hsieh, S. -S., and Yang, S. -S., “Flow Structure and Temperature Measurements in a 3-D Vertical Free Convective Enclosures at High Rayleigh Numbers” International Journal of Heat and Mass Transfer, Vol.40, No.6, 1997, pp.1467-1480.
  54. Hsieh, S. -S., and Weng, C. -J., “Nucleate Pool Boiling Heat Transfer Coefficients of Distilled Water (H2O) and R-134a/ Oil Mixtures from Rib-Roughened Surfaces” ASME Journal of Heat Transfer, Vol.119, No.1, 1997, pp142-151.
  55. Hsieh, S. -S., Wang, Y. -S., and Chiang, M. -H., “Local Heat Transfer and Velocity Measurements in a Rotating Ribbed Two-Pass Square Channel with Uneven Wall Temperatures,” ASME Journal of Heat Transfer, Vol.119, No.4, 1997, pp843-848.
  56. Hsieh, S. -S., Liu, M.-H., and Wu, F.-Y., “Developing Turbulent Mixed Convection in Horizontal Circular Tube with Strip-Type Inserts” International Journal of Heat and Mass Transfer, Vol.41,Nos.8-9, 1998,pp.1049-1063.
  57. Hsieh, S. -S., Weng, C.-C, and Chiou, J.-J., “Nucleat Pool Boiling o­n Ribbed surfaces with Micro-Roughness at Low Moderate Heat Flux” ASME Journal of Heat Transfer, Vol. 121, 1999, pp.376-385.
  58. Hsieh, S. -S., Jang, K. -J., and Huang, M. -T., “Evaporative Heat Transfer and Enhancement Performance of Serpentine Tubes with Strip-Type Inserts Using Refrigerant-134a” ASME Journal of Heat Transfer, Vol. 121, 1999,pp752-757.
  59. Hsieh, S. -S., Huang, J. -T., and Liu, C. -F., “Local Heat Transfer in a Rotating Square Channel with Jet Impingement.” ASME Journal of Heat Transfer, Vol. 121,1999, pp.811-818.
  60. Hsieh, S. -S., Chen, P.-J., and Chin, H.-J., “Turbulent Flow in a Rotating Two Pass Smooth Channel,” ASME Journal of Fluids Engineering, Vol. 121, 1999, pp.725-734.
  61. Hsieh, S.-S., Jang, K. J., and Tsai, Y. C., “Evaporation Heat Transfer and Pressure Drop in Horizontal Tubes with Strip-Type Inserts Using Refrigerant-600a ,”ASME Journal of Heat Transfer, Vol. 122, 2000, pp.387-391.
  62. Hsieh, S.-S., Huang, I.-W., “Heat Transfer and Pressure Drop of Laminar Flow in Horizontal Tubes with/without Longitudinal Inserts,”ASME Journal of Heat Transfer, Vol. 122, 2000, pp.465-475.
  63. Hsieh, S.-S., Huang, J.-T., and Tsai, H.-H., “Heat Transfer of Confined Circular Jet Impingement,” An Invited Paper, The Chinese Journal of Mechanics, Vol. 17, 2001, pp.29-38.
  64. Hsieh, S.-S., and Yang, T.-Y., “Nucleate Pool Boiling from Coated and Spirally Wrapped Tubes in Saturated R-134a and R-600a at Low and Moderate Heat Flux,” ASME Journal of Heat Transfer, Vol. 123, 2001, pp. 257-270.
  65. Hsieh, S.-S., Huang, J.-T., and Tsai, H.-H., “Visualization of Flow Phenomena for Confined Circular Jet Impingement,” An Invited Paper, The Chinese Journal of Mechanics, Vol. 17, 2001, pp.55-61.
  66. Hsieh, S.-S., Chang, L.-C., and Yang, T.-Y., “Developing 3-D Turbulent Mixed Convection in a Circular Duct Inserted with Longitudinal Strips,” International Journal of Engineering Science, Vol. 39, 2001, pp. 1327-1350.
  67. Hsieh, S.-S., and Liao, H.-C., “Local Heat Transfer and Pressure Drop in a Rotating Two-Pass Ribbed Rectangular Channel,” An Invited Paper in Memory of the late Prof. G. J. Hwang, International Journal of Rotating Machinery, Vol. 7, 2001, pp.183-194.
  68. Hsieh, S.-S., “Fluid Flow and Heat Transfer Characteristics with Two Cylinders Forming a Cross,” An Invited Paper in Celebration of Prof. W.J. Yang’s 70th Birthday, International Journal of Transport Phenomena, Vol. 3, No. 4, 2001, pp.1-15.
  69. Hsieh, S.-S., and Ke, C.-G., “Bubble Dynamic Parameters and Pool Boiling Heat Transfer o­n Plasma Coated Tubes in Saturated R-134a and R-600a,”ASME Journal of Heat Transfer, Vol. 124, 2002, pp. 704-716.
  70. Hsieh, S.-S., Huang, J.-T., and Tsai, H.-H., “Impingement Cooling in a Rotating Curved Square Annular Duct with Crossflow Effect from Rib-Roughened Surfaces,” Heat and Mass Transfer, Vol. 39, 2003, pp. 107-117.
  71. Hsieh, S.-S., Liu, M.-H., and Tsai, H.-H., “Turbulent Heat Transfer and Flow Characteristics in a Horizontal Circular Tube with Srip-Type Inserts, Part I – Fluid Mechanics,” International Journal of Heat and Mass Transfer, Vol. 46, 2003, pp. 823-835.
  72. Hsieh, S.-S., Liu, M.-H., and Tsai, H.-H., “Turbulent Heat Transfer and Flow Characteristics in a Horizontal Circular Tube with Srip-Type Inserts, Part II – Heat Transfer,” International Journal of Heat and Mass Transfer, Vol. 46, 2003, pp. 837-849.
  73. Hsieh, S.-S., Huang, G.-Z., and Tsai, H.-H., “Nucleate Pool Boiling Characteristics from Coated Tube Bundles in Saturated R-134a,” International Journal of Heat and Mass Transfer, Vol. 46, 2003, pp. 1223-1239.
  74. Hsieh, S.-S., Jane, K.-J., and Tsai, H.-H., “Evaporative Characteristics of R-134a and R-600a in Horizontal Tubes with Perforated Strip-Type Inserts,” International Journal of Heat and Mass Transfer, Vol. 46, 2003, pp. 1861-1872.
  75. Hsieh, S.-S., Lai, W.-C., and Tsai, H.-H., “LDV Assisted Bubble Dynamic Parameter Measurements from Two Enhanced Tubes Boiling in Saturated R-134a,” International Journal of Heat and Mass Transfer, Vol. 46, 2003, pp. 4911-4923.
  76. Hsieh, S. -S., and Chin, H. -J., “Turbulent Flow in Rotating Two Pass Ribbed Rectangular Channel,” ASME Journal of Turbomachinery, Vol. 125, 2003, pp. 609-622.
  77. Hsieh, S.-S. , Kuo, J. -C., Hwang, C. -F., and Tsai, H. -H., “A Novel Design and Microfabrication for a Micro PEMFC,” Microsystem Technologies , Vol. 10, 2004, pp. 121-126.
  78. Hsieh, S. S. , Tsai, H. -H., and Chan, S. -C., “Local Heat Transfer in Rotating Square-Rich-Roughened and Smooth Channels with Jet Impingement,” International Journal of Heat and Mass Transfer , Vol. 47, 2004, pp. 2769-2784.
  79. Hsieh, S. S. , Lin, C. -Y., Huang, C. -F., and Tsai, H. -H., “Liquid Flow in a Microchannel,” Journal of Micromechanics and Microengineering , Vol. 14, 2004, pp. 436-445.
  80. Hsieh, S.-S., Tsai, H.-H., Lin, C.-Y., and Huang, C.-F., “Gas Flow in a Long Micro-Channel,” International Journal of Heat and Mass Transfer , Vol. 47, 2004, pp. 3877-3887.
  81. Hsieh, S. -S. , Fan, T. – C., and Tsai, H. –H., “Spray Cooling Characteristics of Water and R-134a, Part I Nucleate Boiling ,” International Journal of Heat and Mass Transfer , Vol. 47, 2004, pp. 5699-5708.
  82. Hsieh, S. -S. , Fan, T. – C., and Tsai, H. –H., “Spray Cooling Characteristics of Water and R-134a, Part II Transient Cooling , ” International Journal of Heat and Mass Transfer , Vol. 47, 2004, pp. 5709-5720.
  83. Hsieh, S. -S., Hwang, C. -F., Kuo, J. -K., Tsai, H. -H., and Yang, S. -H., “SU-8 Flow Field Plates for a Micro PEMFC,” Journal of Solid State Electrochemistry, Vol. 9, 2005, pp.120-131.
  84. Hsieh, S. -S., and Tsai, H.-H., “MPIV Liquid Microjets Measurements,” An Invited Paper in Celebration of Prof. C. K. Chen’s 70th Birthday, Chinese Journal of Mechanical Engineering, Vol. 26, 2005, pp. 55-64.
  85. Hsieh, S. -S., Tsai, H.-H., “Thermal and Flow Measurements of Continuous Cryogenic Spray Cooling,” Archives of Dermatological Research, Vol. 298, 2006, pp. 82-96.
  86. Hsieh, S. –S., S.-H. Yang, J. –K. Kuo, C.-F. Huang, and H.-H. Tsai, “A Study of Operational Parameters o­n the Performance of Micro PEMFCs with Different Flowfields,” Energy Conversion and Management, Vol. 47, 2006, pp. 1868-1878.
  87. Hsieh, S. –S., Lin, H. –C., and Lin, C. –Y., “Electroosmotic Flow Velocity Measurements in a Square Microchannel,” Colloid and Polymer Science, Vol. 284, 2006, pp. 1275-1286.
  88. Hsieh, S. –S., Yang, S. –H., Feng, C. –L., “Characterization of the Operational Parameters for a H2/Air Micro PEMFC with Different Flow Fields by Impedance Spectroscopy” Journal of Power Sources, Vol. 162/1, 2006, pp. 262-270.
  89. Hsieh, S. –S., Yang, Feng, C. -L., and Huang, C. -F., “Development and Performance Analysis of a H2/Air Micro PEM Fuel Cell Stack,”Journal of Power Sources, Vol. 163, 2006, pp.440-449.
  90. Hsieh, S. -S., and Tien, C. –H., “R-134a Spray Dynamics and Impingement Cooling in the Non-Boiling Regime,” International Journal of Heat and Mass Transfer, Vol. 50, 2007, pp. 502-512.
  91. Hsieh, S. -S., Wang, Y.-T., Tsai, H.- H., and Lin, C.-Y., “DSMC Simulation for Constant-Wall-Temperature Heat Transfer in a Short Parallel Plate Microchannel,” An Invited paper in Celebration of Prof. T.-Y. Wung’s 88th Birthday, Chinese Journal of Mechanical Engineering, Vol. 28, 2007, pp. 13-22.
  92. Hsieh, S. –S., Liu, C. –H., and Liou, J. –H., “Dynamics of DNA molecules in a cross-slot microchannel,” Measurement Science and Technology, Vol. 18, 2007, pp. 2907-2915.
  93. Hsieh, S. -S., Lee, R.-Y., Shyu, J.-C., and Chen, S.-W., “Analytical Solution of Thermal Resistance of Vapor Chamber Heat Sink with/without Pillar,” Energy Conversion and Management, Vol. 48, 2007, pp. 2708-2717.
  94. Hsieh, S. –S. and Chu, K. –M., “Channel and Rib Geometric Scale Effects of Flowfield Plates o­n the Performance and Transient Thermal Behavior of a Micro PEM Fuel Cell,” Journal of Power Sources, Vol. 173, 2007, pp. 222-232.
  95. Hsieh, S. –S. and Her, B. –S., “Heat Transfer and Pressure Drop in Serpentine μDMFC Flow Channels,” International Journal of Heat and Mass Transfer, Vol. 50, 2007, pp. 5323-5327.
  96. Hsieh, S. -S., and Yang, T.-K., “Electroosmotic Flow in Rectangular Microchannels with Joule Heating Effects,” Journal of Micromechanics and Microengineering, Vol. 18, No. 2, 2008, 025025 (11 pp).
  97. Hsieh, S. –S., Huang, C.-F., and Feng C.-L., “A Novel Design and Micro-fabrication for Copper (Cu) Electroforming Bipolar Plates,” Micron,Vol. 39, 2008, pp. 263-268.
  98. Hsieh, S. –S., Lee, R.-Y., Shyu, J.-C., and Chen, S.-W., “Thermal Performance of a Flat Chamber Heat Spreader,” Energy Conversion and Management, Vol.49, 2008, pp. 1774-1784.
  99. Hsieh, S. -S., and Huang, Y.-C., “Passive Mixing in Micro-Channels with Geometric Variations through μPIV and μLIF Measurements,” Journal of Micromechanics and Microengineering, Vol. 18, No. 6, 2008, 065017 (11pp).
  100. Hsieh, S. -S., and Huang, Y.-J., “Measurements of Current and Water Distribution for a Micro PEM Fuel Cell with Different Flow Fields,” Journal of Power Sources, Vol. 183, 2008, pp. 193-204.
  101. Hsieh, S. -S., and Lin, C. -Y., “Convective Heat Transfer in Liquid Microchannels with Hydrophobic and Hydrophilic Surfaces,” International Journal of Heat and Mass Transfer, Vol.52, 2009, pp.260-270.
  102. Hsieh, S. -S., and Liou, J.-H., “DNA Molecules Dynamics in Converging-Diverging Microchannels,” Biotechnology & Applied Biochemistry, Vol.52, 2009, pp.29-40.
  103. Hsieh, S. -S., Huang, Y. -J., and Her, B. -S., “Pressure Drop on Water Accumulation Distribution for a Micro PEM Fuel Cell with Different Flow Field Plates,” International a Journal of Heat Mass Transfer, Vol.52, 2009, pp.5657-5659.
  104. Hsieh, S. -S., and Lin, C. -Y., “Subcooled Convective Boiling in Structured Surface Microchannels,” Journal of Micromechanics and Microengineering, Vol.20, 2010, 015027(13pp).
  105. Hsieh, S. -S., and Lin, C. -Y., Tsai, H. –H, and Tien, C.-H., “Droplet Size and Velocity Measurements of a Water Spray Impinging on a Flat Plate.” An Invited Paper in Memory of Late Prof. G. J. Hwang, Journal of the Chinese Society of Mechanical Engineers, Vol.31, 2010, pp.167-178.
  106. Hsieh, S. -S., and H. -C. Wu, “A Novel Design on Flowfield Configuration of a Direct Methanol Fuel cell, ” Journal of Power Sources, Vol.195, 2010, pp.3224-3230.
  107. Hsieh, S. -S., and W. -C. Chen, “Performance Tests and Pressure Drops Measurements in the Anode Flowfield of a μDMFC,” Fuel Cells, Vol.10, 2010, pp.597-607.
  108. Hsieh, S. -S., and Her, B. –S., and Huang, Y. –J., “Effect of Pressure Drop in Different Flow Fields on Water Accumulation and Current Distribution for a Micro PEM Fuel Cell”, Energy Conversion and Management, Vol.52, 2011, pp. 975-982.
  109. Hsieh, S. -S., and Lin, C. -Y., “Correlation of Critical Heat Flux and Two-phase Friction Factor for Subcooled Convective Boiliy in Structured Surface Microchennels,” International Journal of Heat and Mass Transfer, Vol. 55, 2012, pp.32-42.
  110. Hsieh, S. -S., Her, B. -S., and Chen, C. -I. “Aluminum-Based Hydrogen Generator for a Mini-Type Proton Exchange Membrane Fuel Cell with an Innovative Flow Field Plate,” International Journal of Electrochemical Science, Vol. 7, 2012, pp. 6859-6876.
  111. Hsieh, S. -S., Chen, J. -H., and Su, G. -C., “Visualization and Quantification of Chaotic Mixing for Helical-type Micromixers,” Colloid and Polymer Science, Vol. 290, 2012, pp. 1547-1559.
  112. Hsieh, S. -S., Wu, H. -C., and Her, B. -S., “Design‚ Fabrication and Characterization of Micro-Electro Mechanical System Based Micro Direct Methanol Fuel Cell Stacks,” Sensors and Actuators A, Vol. 187, 2012, pp. 57-66.
  113. Hsieh, S. -S., Chen, J. -H., and Tsai, C. -F.,”DNA Molecule Stretching Through Thermo – Electrophoresis and Thermal Convection in a Heated Converging-Diverging Microchannel,” Nanoscale Research Letters, Vol. 8, 2013, 8:87.
  114. Hsieh, S. -S., and Yang, Y. -R.”Design, Fabrication and Performance Tests for a Polymer-Based Flexible Flat Heat Pipe,” Energy Conversion and Management. Vol. 70, 2013, pp. 10-19.
  115. Hsieh, S. -S., J.-W. Lin, and Chen. J.-H., “Mixing Efficiency of Y-Type Micromixers with Different Angles,” International Journal of Heat and Fluid Flow. Vol. 44, 2013, pp. 130-139.
  116. Hsieh, S. -S., and Huang. C.-F., “Design, Fabrication and Performance Test of a Planar Array Module -Type Micro Fuel Cell Stack,” Energy Conversion and Management, Vol.76, 2013, pp. 971-979.
  117. Hsieh, S. -S., and Su, Y. W., “Effects of Anode and Cathode Perforated Flowfield plates on PEM Fuel Cell Performance,” International Journal of Energy Research. Vol. 38, 2014, No. 7, pp. 944-953.
  118. Hsieh, S. -S., Hsu, Y.-F., and Wang, M.-L., “A Microspray-Based Cooling System for High Powered LEDs,” Energy Conversion and Management. Vol. 78, 2014, pp. 338-346.
  119. Hsieh, S. -S., Wu, F.-H., and Tsai, M.-J., “DNA Stretching on the Wall Surfaces in Curved Microchannels with Different Radii,” Nanoscale Research Letters, 2014, 9:382, DOI: 10.1186/1556-276X-9-382.
  120. Hsieh, S. -S., Chen, I.-C., and Hwong, C.-H., “Development of a 4-Cell DMFC Stack with Air-Breathing Cathode and Dendrite Flow Field,” International Journal of Energy Research. Vol. 38, 2014, No. 13, pp. 1693-1711.
  121. Hsieh, S. -S., Lou, H.-Y., and H. H. Liu, “Spray Cooling Characteristics of Nanofluids for Electronic Power Devices,” Nanoscale Research Letters, 2015, 10:139, DOI: 10.1186/s11671-015-0793-7.
  122. Hsieh, S. -S., Chen, J.-H, C. Y. Lin, and S. Y. Li, “DNA Stretching on One-Sided Carbon Nanotube (CNT) Walls in Microchannelss,” Journal of Physics D: Applied Physics, Vol. 48, 2015, 135401 (10pp), DOI:10.1088/0022-3727/48/13/135401.
  123. Hsieh, S. -S., Chen, J.-W, and Yeh, I-F., “Optical Flow and Thermal Measurement for Spray Cooling,” International Journal of Heat and Mass Transfer, Vol. 87, 2015, pp. 248-253.
  124. Hsieh, S. -S., Luo, S.-Y, and Lee, R-Y., and Liu, H-H., “Spray Cooling Heat Transfer on Microstructured Thin Film-Enhance Surface,” Experimental Thermal and Fluid Science, Vol. 68, 2015, pp. 123-134.
  125. Hsieh, S. -S., and Luo, S.-Y., “Droplet Impact Dynamics and Transient Heat Transfer of a Micro Spray System for Power Electronic Devices,” International Journal of Heat and Mass Transfer, Vol. 92, 2016, pp. 190-205.
  126. Hsieh, S. -S., Liu, H. -H., and Yeh, I.-F., “Nanofluids Spray Heat Transfer Enhancement,” International Journal of Heat and Mass Transfer, Vol. 94, 2016, pp. 104-118.
  127. Hsieh, S. -S., Ho, C. -C., and Hung, L.-C., “Performance Tests of a Double-Passive μDMFC Stack with Parallel/Dendrite Flow Field,” Renewable Energy, Vol. 90, 2016, pp.28-37.
  128. Hsieh, S. -S., Hung, L. -C., Liu, C. -C., and Huang C. -F., “Analyses of Electrochemical Impedance Spectroscopy and Cyclic Voltammetry in Micro-Direct Methanol Fuel Cell Stacks,” International Journal of Energy Research, Vol. 40, 2016, pp. 2162-2175.
  129. Hsieh, S. -S., Tsai, M.-J. and Hsieh ,Y.-C., ” DNA Stretching under Electrokinetically Driven Forces in Curved Microchannel Flow,” Journal of Nanoscience and Nanotechnology, Vol. 17, 2017, pp. 8731-8741.
  130. Hsieh, S. -S., Li, S.-Y. and Hsieh ,Y.-C., ” Noninvasive Temperature Measurements of RLIF and nPIT in DI Water Flow Microchannels, ”  Applied Thermal Engineering, vol. 117, 2017, pp. 30-38.
  131. Hsieh, S. -S., Li, S.-Y. and Hsieh ,Y.-C., ” Velocity Measurements in DI Water Flow Microchannels with Hydrophilic and Hydrophobic, ”  Applied Thermal Engineering, vol. 127, 2017, pp. 901-905.
  132. Hsieh, S. -S., Yeh, Y. F. and Li, Y.-F., ” Microspray Flow/ Thermal Characteristics via a Micro-Piezoelectric Atomizer with Single and Multiple Arrays of Micronozzles, ”  Experimental Thermal and Fluid Science, Vol. 93, 2018, pp. 96-107.
  133. Hsieh, S. -S., and Chang, W. -C., ” Microspray Quenching on Nanotextured Surfaces via a Piezoelectric Atomizer with Multiple Arrays of Micronozzles, ” International Journal of Heat and Mass Transfer, Vol. 132, 2018, pp. 832-844. 
  134. Hsieh, S. -S., Liu, C.-C. and Huang, C.-F., ” In situ μPIV velocity and μLIF temperature concentration measurements in serpentine dendrite μDMFC flow channels, ” International Communications in Heat and Mass Transfer, Vol. 98, 2018, pp. 125-134.
  135. Hsieh, S. -S., Hsieh, Y.-C. and Huang, C.-F., ” Low Reynolds Numbers Convective Heat Transfer Enhancement in Roughened Microchannels, ”  International Communications in Heat and Mass Transfer, Vol. 112, 2020, 104486.
  136. Hsieh, S. -S., Li, Y.-F. and Huang, C.-F., ” HFE-7100/HFE-7300 Spray Quenching via A Piezoelectric Atomizer with A Single-hole Micronozzle, ”  Applied Thermal Engineering, Vol. 175, 2020, 115343.
  137. Hsieh, S. -S., Huang, C.-F., and Lu, Y.-M., ” Water Spray Heat Transfer through a Piezoelectric Atomizer with a Single-Hole Micronozzle, ”  Journal of Mechanical Science and Technology, Vol. 34, 2020, pp. 3427-3436.
  138. Hsieh, S. -S., Huang, C.-F., and Pan, J.-S., ” Low Reynolds Numbers Convective Heat Transfer in Single/Two-Phase Roughened Microchannels, ”  Applied Thermal Engineering, Vol. 198, 2021, 117468.