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  1. G. Yang, J. Mo, Z. Kang, F.A. List, J.B. Green, S.S. Babu, and F.-Y. Zhang, Additive manufactured bipolar plate for high-efficiency hydrogen production in proton exchange membrane electrolyzer cells, International Journal of Hydrogen Energy. 42 21 (2017) 14734-14740.

  2.  Kang, Z., Mo, J., Yang, G., Talley, D., Li, Y., Retterer, S. T., Cullen, D. A., and Zhang, F.-Y. "Investigation of Pore Shape Effects of Novel Thin LGDLs for High-Efficiency Hydrogen/Oxygen Generation and Energy Storage," AIAA paper 2017-4873, AIAA Propulsion and Energy Forum and Exposition, Atlanta, Georgia, 10 - 12 July 2017.

  3. G. Yang, J. Mo, Z. Kang, F.A. List, J.B. Green, S.S. Babu, and F.-Y. Zhang,"3D Printed Bipolar Plate for Water Electrolysis," 231 ECS Meeting in New Orleans, May 28 – June 2, 2017.

  4. Kang, Z., Mo, J., Yang, G., Retterer, S. T., Cullen, D. A., and Zhang, F.-Y. "Novel Liquid/Gas Diffusion Layers with Micro/nano Surface Modifications for High-efficiency Water Electrolysis," 231 ECS Meeting in New Orleans, May 28 – June 2, 2017.

  5. Jingke Mo, Zhenye Kang, Gaoqiang Yang, Derrick Talley, and Feng-Yuan Zhang “In-Situ investigation of Triple-Phase Boundary Electrochemical Reactions in PEM Electrolyzer Cells.” 231 ECS Meeting in New Orleans, May 28 – June 2, 2017. (Invited)

  6. Kang, Z., Mo, J., Yang, G., Retterer, S. T., Cullen, D. A., and Zhang, F.-Y. "Micro/Nano Manufacturing of Novel Multifunctional Layers for Hydrogen Production from Water Splitting," IEEE 12th Annual International Conference on Nano/Micro Engineered and Molecular Systems (NEMS). Los Angeles, USA, 2017, pp. 126-130.

  7. Yang, G., Mo, J., Kang, Z., Dohrman, Y, Eilbeigi, S,. Farahanipad, F., Huang, H., and Zhang, F.-Y. "Additive Manufactured Micro-Sensor from Silver Nanoparticles for Measuring Shear Stress and Pressure" IEEE 12th Annual International Conference on Nano/Micro Engineered and Molecular Systems (NEMS). Los Angeles, USA, 2017, pp. 164-168.

  8. J. Mo, Z. Kang, G. Yang, D. Talley, W. Barnhill, and F.-Y. Zhang, “Visualization on Rapid and Micro-Scale Dynamics of Oxygen Bubble Evolution in PEMECs”, The 12th IEEE Annual International Conference on Nano/Micro Engineered and Molecular System (NEMS). Los Angeles, CA, USA, April 9-12, 2017, pp: 101-105.

  9. Kang, Z., J. Mo, G. Yang, S.T. Retterer, D.A. Cullen, T.J. Toops, J.B. Green, M.M. Mench, and F.-Y. Zhang, Investigation of thin/well-tunable liquid/gas diffusion layers exhibiting superior multifunctional performance in low-temperature electrolytic water splitting, Energy & Environmental Science. 2017, 10, 166 - 175.

  10. B. Han, J. Mo, Z. Kang, G. Yang, W. Barnhill and F.-Y. Zhang, Modeling of two-phase transport in proton exchange membrane electrolyzer cells for hydrogen energy. Int J Hydrogen Energ, 2017.

  11. Mo, J., Z. Kang, S.T. Retterer, D.A. Cullen, T.J. Toops, J.B. Green, M.M. Mench, and F.-Y. Zhang, Discovery of true electrochemical reactions for ultrahigh catalyst mass activity in water splitting. Science Advances, 2016. 2(11): e1600690.

  12. Stuart Steen, Jingke Mo, Zhenye Kang, Gaoqiang Yang, and Feng-Yuan Zhang, Investigation of titanium liquid/gas diffusion layers in proton exchange membrane electrolyzer cells, International Journal of Green Energy. 2016. 2(14), 162-170.

  13. Jingke Mo, Zhenye Kang, Gaoqiang Yang, Scott T. Retterer, David A. Cullen, Todd J. Toops, Johney B. Green Jr., Feng-Yuan Zhang, Thin liquid/gas diffusion layers for high-efficiency hydrogen production from water splitting. Applied Energy, 2016. 177: p. 817-822.

  14. Bo Han, Jingke Mo, Zhenye Kang, and Feng-Yuan Zhang, Effects of membrane electrode assembly properties on two-phase transport and performance in proton exchange membrane electrolyzer cells. Electrochimica Acta, 2016. 188: p. 317-326.

  15. Xu, N., T. Zhu, J. Qiao, F.-Y. Zhang, and Z. Chen, Nitrogen and sulfur co-doped mesoporous carbon as cathode catalyst for H 2/O 2 alkaline membrane fuel cell–effect of catalyst/bonding layer loading. International Journal of Hydrogen Energy, 2016. 41(21): p. 9159-9166.

  16. Zhenye Kang, Jingke Mo, Gaoqiang Yang, Scott T. Retterer, David A. Cullen, Feng-Yuan Zhang, Investigation of thin-film MEAs for high-efficiency energy storage, 2016 DOE-CNMS User Meeting. August 9-12. Oak Ridge, TN.

  17. Jingke Mo, Ryan R. Dehoff, William H. Peter, Todd J. Toops, Johney B. Green Jr., Feng-Yuan Zhang, Additive manufacturing of liquid/gas diffusion layers for low-cost and high-efficiency hydrogen production. International Journal of Hydrogen Energy, 2016, 41 (4), p 3128-3135

  18. Jingke Mo, Yunzhu Shi, Peter K. Liaw, Feng-Yuan Zhang, Exploration of High Entropy Alloys for Sustainable Energy Storages. TMS 2016, 145th Annual Meeting & Exhibition, Nashville, TN, USA, February 14-18, 2016.

  19. Jingke Mo, Zhenye Kang, Bo Han, William Barnhill, Gaoqiang Yang, Feng-Yuan Zhang, Visualization of Micro-Scale Reactions and Microfluidics in PEMECs for High-efficiency Energy Storage, The 17th International Symposium on Flow Visualization, Gatlinburg, TN, USA, June 19-22, 2016.

  20. Feng-Yuan Zhang, “Developing Novel Multifunctional Materials for High-Efficiency Electrical Energy Storage-optimizations”  The 2016 DOE Crosscutting Research Review Meeting, April, 2016. (Invited)

  21. Zhenye Kang, Jingke Mo, Bo Han, Feng-Yuan Zhang, Characterization of Titanium Thin-Film Liquid/Gas Diffusion Layer in Clean and Renewable Power Systems. TMS 2016, 145th Annual Meeting & Exhibition, Nashville, TN, USA, February 14-18, 2016.

  22. Y. Shi, X. Xie, J. Mo, A. Nawano, B. Yang, F.-Y. Zhang, K.A. Dahmen, and P.K. Liaw, Corrosion behavior of AlxCoCrFeNi high-entropy alloys in a 3.5 wt.% NaCl solution, ASM Oak Ridge Chapter Annual Poster Night, Knoxville, TN, November, 2015.

  23. Mench, M. M. and Zhang, F.-Y., Fuel Cells. Mechanical Engineers' Handbook. IV:2:31:1–34 (2015). Wiley.

  24. F.-Y. Zhang: “Experimental and computational study of proton exchange membrane electrolyzer cells for high‐efficiency hydrogen production”.  International Conferences on Electrochemical Energy Science & technology, 2015. Vancouver, Canada. (Invited)

  25. Mo, J., S.M. Steen, F.-Y. Zhang, T.J. Toops, M.P. Brady, and J.B. Green, Electrochemical investigation of stainless steel corrosion in a proton exchange membrane electrolyzer cell. International Journal of Hydrogen Energy, Vol 40, No 36, 2015, pp. 12506-12511.

  26. Han, B., Steen, S. M., Mo, J., and Zhang, F.-Y. "Electrochemical performance modeling of a proton exchange membrane electrolyzer cell for hydrogen energy," International Journal of Hydrogen Energy Vol. 40, No. 22, 2015, pp. 7006-7016.

  27. J. K. Mo, S. M. Steen,  A. Terekhov, S. T. Retterer, D. A. Cullen, and F. Y. Zhang:  “Mask-Patterned Wet Etching of Thin Titanium Liquid/Gas Diffusion Layers for a PEMEC”, ECS Transaction, Vol 66, No 24, 2015, pp. 3-10.

  28. Toops, T. J., Brady, M. P., Zhang, F.-Y., Meyer, H. M., Ayers, K., Roemer, A., and Dalton, L. "Evaluation of nitrided titanium separator plates for proton exchange membrane electrolyzer cells," Journal of Power Sources Vol. 272, 2014, pp. 954-960.

  29. Feng-Yuan Zhang, “Developing Novel Multifunctional Materials for High-Efficiency Electrical Energy Storage”  The 2015 DOE Crosscutting Research Review Meeting, April, 2015. (Invited)

  30. J. K. Mo, S. M. Steen, B. Han, and F. Y. Zhang, “High-speed and micro-scale measurements of flow and reaction dynamics for sustainable energy storage,” AIAA paper 2015-3913, 13th International Energy Conversion Engineering Conference, AIAA Propulsion and Energy Forum and Exposition, Orlando, Florida, 27-29 July 2015.

  31. J. K. Mo, S. M. Steen, B. Han, Z. Y. Kang, A. Terekhov, S. T. Retterer, D. A. Cullen, and F. Y. Zhang, “Investigation of titanium felt transport parameters for energy storage and hydrogen/oxygen production,” AIAA paper 2015-3914, 13th International Energy Conversion Engineering Conference, AIAA Propulsion and Energy Forum and Exposition, Orlando, Florida, 27-29 July 2015.

  32. B. Han, J. K. Mo, Z. Y. Kang, and F. Y. Zhang, “Modeling of interfacial resistance effects on the performance and efficiency for electrolyzer energy storage,” AIAA paper 2015-3915, 13th International Energy Conversion Engineering Conference, AIAA Propulsion and Energy Forum and Exposition, Orlando, Florida, 27-29 July 2015.

  33. J. K. Mo, S. M. Steen, W. Barnhill, and F. Y. Zhang, “Investigation on the microfluidics in PEM water electrolyzers,” presented at the 227th ECS Meeting, Chicago, Illinois, 24-28 May 2015.

  34. S. M. Steen, J. K. Mo , S. T. Retterer, A. Terekhov, and F. Y. Zhang, “Fabrication and characterization of well-tunable and titanium thin-film liquid/gas diffusion layers,” presented at the 227th ECS Meeting, Chicago, Illinois, 24-28 May 2015.

  35. B. Han, S. M. Steen, J. K. Mo, and F. Y. Zhang, “Modeling two-phase transport on the PEM water electrolyzer,” presented at the 227th ECS Meeting, Chicago, Illinois, 24-28 May 2015.

  36. LaManna, J.M., J.V. Bothe, F.Y. Zhang, and M.M. Mench, Measurement of capillary pressure in fuel cell diffusion media, micro-porous layers, catalyst layers, and interfaces. Journal of Power Sources, 2014. 271: p. 180-186.

  37. Steen, S.M. and F.-Y. Zhang: “In-situ and Ex-situ Characterizations of Electrode Interfaces in Energy Storage Electrolyzers”, ECS Trans. 2014 59(1): 95-102

  38. Steen, S.M. and F.-Y. Zhang: Energy Dispersive X-Ray and Electrochemical Impedance Spectroscopies for Performance and Corrosion Analysis of  PEMWEs , Journal of Physics: Conference Series, 548(2014) 012062.

  39. Mo, J, Steen, S. M.,  and Zhang, F.-Y.: X-Ray Diffraction Studies on Material Corrosions in Renewable Energy Storage Electrolyzers, Journal of Physics: Conference Series, 548(2014) 012061.

  40. William.C. Barnhill, J. Qu, H. Luo, H.M. Meyer III, C. Ma, M. Chi, B.L. Papke and  F. Y. Zhang, Development of Next-Generation Additives for High-Efficiency Engines, 50th Celebration Poster, Tullahoma, TN, September, 2014.

  41. S. M. Steen III, and F. –Y. Zhang, Energy Dispersive X-Ray and Electrochemical Impedance Spectroscopies for Performance and Corrosion Analysis of PEMWEs, 50th Celebration Poster, Tullahoma, TN, September, 2014.

  42. Jingko Mo and F. –Y. Zhang, High-resolution Characterizations of Materials and Multiphase Transport in Renewable Energy Storage Electrolyzers, 50th Celebration Poster, Tullahoma, TN, September, 2014.

  43. B. Han and F. –Y. Zhang,   Modeling/simulation of Multiphase Transport and Performance for Polymer Electrolyte Membrane Water Electrolyzer, 50th Celebration Poster, Tullahoma, TN, September, 2014.

  44. Steen, S.M. and F.-Y. Zhang: Optimization of Gas Diffusion Layers with High-Corrosion Resistance for PEMWE. 225th ECS meeting, The Electrochemical Society. May, 2014.

  45. S. M. Steen III, F.-Y. Zhang:  Investigating Corrosions and Interfacial Effects of Gas Diffusion Layers in PEMWE, 2014 Electrochemical Conference on Energy and the Environment (ECEE), ECEE-0271. March 13 - 16, 2014.

  46. F. Y. Zhang: “In-situ Detection and Control of Capillary Flow and Micro-scale Reaction for Space Propulsions”, 19th Advanced Space Propulsion Workshop (ASPW), Huntsville, AL, Nov. 27-29, 2012.

  47. M.  M. Mench and F. Y. Zhang : Progress in Ultra-High Current Polymer Electrolyte Fuel Cell Designs, 2012 Tianda International Fuel Cell Workshop, Tianjin, May 24-27, 2012. (invited)

  48. F. Y. Zhang, S. Reid, A. Turhan, L.Zheng, M.  M. Mench: “Theoretical  and experimental investigation of Micro-porous Layers in PEMFCs”, Electrochemical Energy Storage and Conversion Forum, Knoxville, TN, April 19-20, 2012.

  49. F. Y. Zhang, S. G. Advani, and A. K. Prasad: “Advanced High Resolution Imagining Techniques for Diagnosis of Degradation Effects” in “Modern Topics in Polymer Electrolyte Fuel Cell Degradation”, Elsevier, 2011.

  50. LaManna J., Chakraborty S., Zhang F. Y., Mench M., Gagliardo J., and Owejan J., "Isolation of Transport Mechanisms in PEFCs with High Resolution Neutron Imaging", Electrochemical Society (ECS) Transactions,40, 1,Visualization and Imaging ( 2011),  pp. 329-336.

  51. J.M. LaManna, S. Chakraborty, F.Y. Zhang, J.J. Gagliardo, J. Owejan and M.M. Mench: Isolation of Transport Mechanisms in PEFCs with High Resolution Neutron Imaging, The 4th Annual Global Conference on Energy: International Forum on Multidisciplinary Education and Research for Energy Science, Honolulu, Hawaii,  December 17-22, 2011.

  52. Owejan J., Gu W., Gagliardo J., Nicotera P., Kongkanand A., Reid R., Mench M., LaManna J., Chakraborty S., Zhang F. Y., Hickner M., Petrina S., Kandlikar S., Trabold T., Zhang G., Sergi J., and Daino M., "Validation and Characterization Database Supporting Two-Phase 1+1D PEMFC Model Development", 220th ECS Meeting & Electrochemical Energy Summit, in Boston, Massachusetts (October 9-14, 2011)

  53. Jacob M LaManna, Feng-Yuan Zhang, Subhadeep Chakraborty, and Matthew M. Mench: Quantification of Through-Plane Liquid Water Gradients and Transport in PEFCs with High Resolution Neutron Imaging, 219th ECS Meeting,  MA2011-01, May 1 - May 6, 2011 , Montreal, QC, Canada.

  54. W. Shen, F. Y. Zhang, A. Prasad, J. Hertz, “Non-Flooding Hybrid Polymer Fuel Cell,” Electrochemical Society (ECS) Transactions, 33, 2010.

  55. Allan Aris, F. Y. Zhang, S. G. Advani, A. K. Prasad, Thomas P. Beebe, Zaki S. Khalifa, S.Ismat Shah: Electrochemical Investigation of Freeze/Thaw Effects On Catalyst Layer Degradation in Fuel Cells, 2010 Energy and Sustainability Conference, Newark, September 16–20, 2010.

  56. F. Y. Zhang, A. K. Prasad, and S. G. Advani, Mary Boggs, Shawn Sullivan, and Thomas P. Beebe, Jr.: “Degradation Investigation of Catalyst Layer in PEM Fuel Cells Using XPS”, Electrochimica Acta, 54, 16, 30 (2009).

  57. F. Y. Zhang, S. G. Advani, A. K. Prasad, Thomas P. Beebe, Zaki S. Khalifa, S.Ismat Shah: Investigation of freeze/thaw effects on catalyst layer degradation in fuel cells with XPS and XRD, 2009 Fuel Cell Seminar, Palm Springs, CA, November 16–20, 2009.

  58. B. Hennigan, F. Y. Zhang, S. G. Advani, A. K. Prasad: In-situ and ex-situ characterizations of micro foam materials for PEM fuel cells, Energy and Sustainability Conference, Newark, August 12-14, 2009.

  59. F. Y. Zhang, A. K. Prasad, and S. G. Advani, Mary Boggs, Shawn Sullivan, and Thomas P. Beebe, Jr.: Investigation of Catalyst Layer Degradation in PEM Fuel Cells using XPS, Energy and Sustainability 2009, Newark, August 12-14, 2009.

  60. F. Y. Zhang, A. K. Prasad, and S. G. Advani: “Performance Enhancement of PEMFCs with Nano-based Gas Diffusion Medium”, Journal of Power Sources, 176, 293 (2008).

  61. F. Y. Zhang, S. G. Advani, A. K. Prasad: “Developments and Challenges of Novel Metallic Gas Diffusion Layer.” Selected Speaker in Rapid Communication Session, 2008 Gordon Research Conference on Fuel Cells, Smithfield, RI, July 20-24, 2008.

  62. F. Y. Zhang, S. G. Advani, A. K. Prasad, Mary Boggs, Shawn Sullivan,  and Thomas P. Beebe, Jr.: “Degradation Study of Catalyst Layer in Fuel Cells with XPS” 2008 Gordon Research Conference on Fuel Cells, Smithfield, RI, July 20-24, 2008.

  63. F. Y. Zhang, D. Spenjak, A. K. Prasad, and S. G. Advani “In-Situ Characterization of Catalyst Layer in Polymer Electrolyte Fuel Cell”, Journal of Electrochemical Society, Vol. 154, 11, (2007).

  64. F. Y. Zhang, S. G. Advani, A. K. Prasad, Mary Boggs, Shawn Sullivan,  and Thomas P. Beebe, Jr. : “Quantitative  Characterization of PEM Fuel Cell Catalyst Layers Using XPS ”, 8th ANNUAL ACS-DELAWARE SECTION  MEETING, Newark, April 30, 2008.

  65. F. Y. Zhang, A. K. Prasad, and S. G. Advani: “Development of a Novel Metallic Gas Diffusion Layer for PEM Fuel Cells Using Micro/Nano Technology”, 2007 Fuel Cell Seminar & Exposition, San Antonio, Texas Henry B. Gonzalez Convention Center October 15–19, 2007.

  66. F. Y. Zhang, A. K. Prasad, and S. G. Advani: “Development of a Nano-based Metallic Gas Diffusion Layer for Fuel Cells”, Solar Hydrogen and Sustainable Energy Conference, Newark, August 20-22, 2007.

  67. F. Y. Zhang, A. K. Prasad, and S. G. Advani: “Combined Investigations of Catalyst Layer of PEM Fuel Cells with XPS and Micro Visualization,” 5th International Fuel Cell Science, Engineering & Technology Conference, New York, June 18-20, 2007.

  68. Ma, Y., M. Fields, C.P. Sun, F. Y. Zhang, J.C. Liao, Y. Li, B.M. Churchill, and C.M. Ho: “Design of microfluidic T-form mixer utilizing pressure disturbances”. IEEE Nanotechnology Council Review on Advances of Micro, Nano, and Molecular Systems, 2006. 1: p. 595.

  69. F. Y. Zhang, A. K. Prasad, and S. G. Advani “Investigation of a Copper Etching Technique to Fabricate Metallic Gas Diffusion Media (for Fuel Cell)”, Journal of Micromechanics and Microengineering, Vol. 16, N23-N27 (2006).

  70. F. Y. Zhang, D. Spenjak, A. K. Prasad, and S. G. Advani: “In-situ Micro/nano Transport Characterization on Catalyst Layer in MEA of a PEM Fuel Cell,” 2006 Fuel Cell Seminar, Honolulu, Hawaii, November 13-17, 2006.

  71. Y. Ma,  M. Fields, C. Sun, F.-Y. Zhang, J. Liao, Y. Li, B. Churchill, and C. Ho, Microfluidic T-Form Mixer Utilizing Pressure Disturbances., Nanotech, ISBN 0-9767985-7-3 Vol. 2, 2006. pp 651-654.

  72. F. Y. Zhang, X. G. Yang, and C.Y. Wang: “Liquid Water Removal from a Polymer Electrolyte Fuel Cell”. Journal of Electrochemical Society. Vol. 153, pp. A225-232 (2006).

  73. F. Y. Zhang, X. G. Yang, and C.Y. Wang: “Visualization of Flooding in Operating Fuel Cell”, PWR2005-50206, ASME Power Conference, Chicago, Illinois, April 5-7, 2005.

  74. X.G. Yang, F. Y. Zhang, A. Lubawy, and C.Y. Wang: “Visualization of Liquid Water Transport in a Polymer Electrolyte Fuel Cells”, Electrochemical and Solid-State Letters, 7,11, A408-A411(2004).

  75. F. Y. Zhang, T. Fujiwara, T. Miyasaka, Ei-ichi Nakayama, Tsuyoshi Hattori, Nobuyuki Azuma, Satoru Yoshida, and A. Tamugi: “Experimental Study of Key Issues on Pulse Detonation Engine Development”, Transactions of the Japan Society for Aeronautical and Space Science, Vol. 45, No 150 pp. 243-248 (2003).

  76. F. Y. Zhang, T. Fujiwara, T. Miyasaka, E. Nakayama, T. Hattori and R. K. Hanson: “Detonation Studies of High- Frequency-Operation Pulse Detonation Engine with Air/Hydrogen”, AIAA-2003-1169, 41st AIAA Aerospce Sciences Meeting and Exhibit, Reno, NV, 6-9 Jan 2003.

  77. Takeshi Miyasaka, Takeshi Furukawa, Takeo Soga, and Feng-Yuan Zhang , Influence of Propellant-Inlet Condition on Hall Thruster Performance” , Proceedings of 28th International Electric Propulsion Conference, Toulouse France, IEPC-03-091, pp. 17-21 March, 2003.

  78. T. Miyasaka, T. Fujiwara, T. Endo, F. Y. Zhang and T. Matsuo: “Estimation of Pulse Detonation Engine Performance Using a Two-Dimensional CFD Analysis Based on Detailed Oxyhydrogen Chemistry”, Journal of the Japan Society for Aeronautical and Space Sciences, 50; NO.586; pp.438-443(2002). (In Japanese)

  79. F. Y. Zhang, T. Fujiwara, T. Miyasaka, E. Nakayama and T. Hattori: “Experimental Research on Pulse Detonation Engine with Air/Hydrogen”, AIAA-2002-5166. AIAA/AAAF 11th International Space Planes and Hypersonic Systems and Technologies Conference, Orleans, France,   29 Sep - 4 Oct 2002.

  80. T. Miyasaka, T. Fujiwara, F. Y. Zhang, Y. Hyodo, Y. Oka, and S. Ito: “Theoretical Assessment of PDE Performance using a 2-Dimensional Numerical Analysis”, Confined Detonations and Pulse Detonation Engines, G. D. Roy, S. M. Frolov, R. J. Santoro and  S. A. Tsyganov, eds. (Moscow: “TORUS PRESS Publ., ISBN 5-94588-012-4, 2002).

  81. Toshi Fujiwara, F. Y. Zhang, T. Miyasaka, S. Kawai, N. Azuma, E. Nakamura, T. Hattori and S. Yoshida: “Research and Development toward Pulse Detonation Engine Application”, Key lecture, Japanese Symposium on Shock Waves, Tsukuba March 14-16, 2002. (In Japanese)

  82. Toshi Fujiwara, F. Y. Zhang, T. Miyasaka, S. Kawai, A. Saitoh, “Experiment and Simulation on Development of Pulse Detonation Engine”, Key lecture, Symposium on Fluidics of 2001, Gero, Jan, 2002, pp.3-10.

  83. F. Y. Zhang, T. Fujiwara, T. Miyasaka, S. Akira and A. Tamugi: “Experimental Research on PULSE DETONATION ENGINE Performance and Optimization”, Japanese Symposium on Shock Waves of 2001, Tsukuba March 14-16, 2002. (In Japanese)

  84. T. Fujiwara, T. Endo, T. Miyasaka, F. Y. Zhang, and Y. Oka: “Theoretical Assessment of PULSE DETONATION ENGINE Performance at Various Flight Conditions, Confined Detonations and Pulse Detonation Engines edited by G. D. Roy, S. M. Frolov, R. J. Santoro, and S. A. Tsyganov. Moscow: “TORUS PRESS Publ., ISBN 5-94588-012-4, 2002.

  85. E. Nakayama, F. Y. Zhang, T. Fujiwara, T. Miyasaka and A. Tamugi: “Optimal ignition condition research of PULSE DETONATION ENGINE”, Japanese Symposium on Shock Waves of 2001, Tsukuba March 14-16, 2002. (In Japanese)

  86. F. Y. Zhang, T. Fujiwara, K. Komurasaki: “Diode-Laser Tomography for Arcjet Plume Reconstruction”. Applied Optics, Vol. 40, No 6 (2001), pp957-964.

  87. S. Yoshida, F. Y. Zhang, T. Fujiwara, T. Miyasaka and A. Tamugi: “High-Frequency-Operation Experiment of Pulse Detonation Engines”, Japanese Symposium on Shock Waves of 2001, Tsukuba March 14-16, 2002. (In Japanese)

  88. T. Hattori, F. Y. Zhang, T. Fujiwara, T. Miyasaka and A. Tamugi: “Detonation Initiation of Jet Fueled Pulse Detonation Engine”, Japanese Symposium on Shock Waves of 2001, Tsukuba March 14-16, 2002. (In Japanese)

  89. F. Y. Zhang, T. Fujiwara, T. Miyasaka: “Fundamental Experimental Research on Pulse Detonation Engine”, Symposium on Fluidics of 2001, Gero, Jan, 2002. (In Japanese)

  90. T. Miyasaka, S. Kawai, Toshi Fujiwara, F. Y. Zhang: “Simulation of PULSE DETONATION ENGINE performance”Symposium on Fluidics of 2001, Gero, Jan, 2002. (In Japanese)

  91. N. Azuma, F. Y. Zhang, T. Fujiwara, T. Miyasaka and A. Tamugi: “A Study on Pre-Detonator for Pulse Detonation Engine”, Japanese Symposium on Shock Waves of 2001, Tsukuba March 14-16, 2002. (In Japanese)

  92. F. Y. Zhang, E. Nakayama, T. Hattori, S. Yoshida, N. Azuma, T. Fujiwara, T. Miyasaka, Saitoh Akira and A. Tamugi: “Developmental Research on PULSE DETONATION ENGINE Performance with DDT Optimization”, Symposium on Space Transportation of 2001, ISAS, Jan 17-18. (In Japanese)

  93. F. Y. Zhang, T. Fujiwara, T. Miyasaka: “Low-Pulse-Run Experiment of Pulse Detonation Engine Using Air-Hydrogen”, 1A8, Proc. of 33rd Fluid Dynamics Conference, pp.33-36, (2001) (in Japanese)

  94. F. Y. Zhang, T. Fujiwara: “Absorption Diagnostics of Pulse Detonation Engine Flows Using Diode-Laser Sensors”, SPIE`s 46th Annual Meeting, The International Symposium on Optical Science and Technology, 29 July—3 August, San Diego.

  95. F. Y. Zhang, T. Fujiwara: “Experimental Investigation of Plasma Thruster Parameter with Diode Laser Absorption Technique”, AIAA 2001-3007, 32nd AIAA Plasmadynamics and Lasers Conference, 11-14 June 2001/Anaheim, CA.

  96. F. Y. Zhang, T. Fujiwara: “Multi-Parameter Measurements of Hypersonic Flow with Diode-Laser Absorption Spectroscopy”, AIAA2001-1774, AIAA/NAL/NASDA/ISAS 10th International Space Planes and Hypersonic Systems and Technologies Conference, 24-27 April 2001 /Kyoto, Japan.

  97. F. Y. Zhang, T. Fujiwara, T. Miyasaka, J. Harada and K. Komurasaki: “Simultaneous Measurements of Plume Temperature and Atomic Number Density with Optical Absorption Tomography”. IEPC-99-040. Proceedings of 26th International Electric Propulsion Conference, Oct., 1999, pp278-287. Kitakyusyu.

  98. F. Y. Zhang, T. Fujiwara, K. Komurasaki and Akira Saitoh: “Absorption Sensor System for Arcjet Multi-Parameter Measurements”, Measurement Science and Technology, Vol. 11, No 10, 2000, 2000, N95–N99.

  99. F. Y. Zhang, T. Fujiwara, K. Komurasaki, T. Miyasaka and J. Harada: “Determination of parameters in arcjet plume by tomographic reconstruction”. Transactions of the Japan Society for Aeronautical and Space Science, Vol. 43, No 140, 2000, pp77-87.

  100. F. Y. Zhang, K. Komurasaki, T. Iida, T. Fujiwara: “Diagnostics of an Argon Arcjet Plume Using a Diode Laser”, Applied Optics, Vol. 38, No 9, 1999, pp1814-1822.

  101. F. Y. Zhang, T. Fujiwara and K. Komurasaki: “Computerized Tomography for Reconstruction of the Parameters of Arcjet Plume”. AIAA 99-0459. Jan , 1999.

  102. F. Y. Zhang, K. Komurasaki, T. Iida, J. Harada, and T. Fujiwara: “Application of Diode-Laser Absorption Technique to the Enthalpy Measurement of an Arc Heater”. Transactions of the Japan Society for Aeronautical and Space Science, Vol. 41, No 133, 1998, pp118-124.

  103. F. Y. Zhang, T. Iida, T. Hayashi, D. Kusamoto, K. Komurasaki, T. Fujiwara: “Velocity Measurement of Arcjet Plume with a Diode-Laser Absorption Technique”. Transactions of the Japan Society for Aeronautical and Space Science, Vol. 40, No 129, 1997, pp163-170.

  104. F. Y. Zhang, T. Iida, K. Komurasaki, T. Fujiwara: “Diode-Laser Absorption Methods for Diagnosis of Arcjet Plasma”. AIAA-97-3358. July, 1997.

  105. K. Komurasaki, T. Iida, D. Kusamoto and F. Y. Zhang: “Plume Diagnosis of an Applied Field Arcjet by Using a DLAT”. IEPC 97-064. Proceedings of 25th international Electric Propulsion Conference. Cleveland, OH. Aug. 1997, pp387-392.

  106. F. Y. Zhang and T. Fujiwara: “Simultaneous Measurements of Temperature and Atomic Number Density of Arcjet Plume with Diode-Laser Absorption Tomography”. Proceedings of 41th Aerospace Propulsion Symposium. Tsukuba. January, 2001, pp13-18. (In Japanese)

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