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Yusuke Shiratori Last modified date:2017.05.29

Associate Professor / Hydrogen Utilization Engineering
Department of Mechanical Engineering
Faculty of Engineering


Other Organization


E-Mail
Phone
092-802-3058
Fax
092-802-3094
Academic Degree
PhD (Engineering)
Field of Specialization
Fuel cell technology, Electrochemistry, Thermodynamics
Outline Activities
Biogas, generated by anaerobic fermentation of organic wastes, consists of 60% CH4 and 40% CO2. In principle, biogas containing natural reforming agent, CO2, can be directly fed into high temperature SOFC without pre-reformer to obtain electricity. Therefore, hydrogen production and purification systems can be simplified leading to cost reduction and enhancement of overall system efficiency. Our group has demonstrated the long-term stability of internal reforming SOFC running on biogas using anode-supported single cells. At this moment, thermomechanical reliability of internal reforming SOFC is being evaluated using a SOFC visualization system which enables us to perform in-situ measurement of temperature distribution in SOFC.
Research
Research Interests
  • Sustainable development of rural area by effective utilization of bio-wastes with highly efficient fuel cell technology
    keyword : Energy circulation system, Fuel cell, SOFC, Biogas, Vietnam
    2015.01~2020.03.
  • Development of functionally-graded reaction field for the direct internal reforming SOFC running on biofuels
    keyword : fuel cell, SOFC, paper-structured catalyst, Biogas
    2011.10~2015.09.
  • Thermomechanical reliability of Ni-Zirconia anode supports in internal reforming SOFC running on biogas
    keyword : Biogas, fuel cell, SOFC
    2010.07~2011.03.
  • Fabrication of single cell housing for the verification test of direct-biogas SOFC
    keyword : Biogas, fuel cell, SOFC
    2009.09~2010.03.
  • Chemical analysis of real SOFC cells using STEM-EDX technique
    keyword : Solid oxide fuel cell, cathode, anode, STEM, EDX
    2009.04~2010.05.
  • Influence of fluctuation of biogas composition on the performance of direct-biogas SOFC
    keyword : Biogas, organic waste, methane fermentation, fuel cell, SOFC
    2008.07~2009.03.
  • Application of biodiesels to solid oxide fuel cell
    keyword : biodiesel, SOFC
    2009.10.
  • Development of direct-biogas SOFC
    keyword : SOFC, anode, internal reforming, biogas
    2007.04~2008.03.
  • Development of novel cermet anode for internal reforming SOFC
    keyword : SOFC, anode, internal reforming, biogas, NiO-MgO
    2005.01~2006.10To enhance catalytic activity of anode materials for internal reforming of hydrocarbon-fuels, catalyst based on Ni0.9Mg0.1O was prepared. Small particles of Ni with ca. 50 nm in size were formed by the reduction of the mixed oxide and confirmed to be stable against sintering, whereas Ni particles formed from NiO easily agglomerated resulting in smaller catalyst area in the cermet anodes. In supplying simulated biogas, cell voltage above 800 mV was achieved at 900 oC in 30 h operation under the constant current density of 200 mA cm-2 when the novel cermet anode based on Ni0.9Mg0.1O-ScSZ was applied..
  • Development of novel electrolyte material for the enhancement of the reliability of anode-supported SOFCs
    keyword : SOFC, electrolyte, thermal expansion, composite, 3YSZ-MgO
    2002.06~2004.12In the view of making SOFC assembling more reliable, composite electrolyte materials were investigated with the aim to minimize the TEC mismatch to other SOFC components. Our results revealed that if 3YSZ and MgO are selected as matrix and secondary phase, respectively, in the composite electrolyte, highly dense YSZ-based electrolytes can be made. Their TEC can be increased by increasing the MgO content and at a MgO concentration of 80 mol% the TEC value of the composite material is in good agreement with that of the Ni/YSZ cermet anode. However, at this MgO content the electrical conductivity is decreased by one order of magnitude. Composites with about 40-60 mol% MgO seem to be the most reasonable electrolyte materials for further development..
Academic Activities
Books
1. Yusuke Shiratori, Tran Tuyen Quang, Yutaro Takahashi, Shunsuke Taniguchi, Kazunari Sasaki , Renewable Energy - Trends and Applications, INTECH, Chapter title, Highly Efficient Biomass Utilization with Solid Oxide Fuel Cell Technology, 2011.10.
Reports
1. Yusuke Shiratori, Stack test of internal reforming SOFC running on biogas, JSPS若手研究者等海外派遣プログラム成果報告書, 2010.10.
2. Yusuke Shiratori, Monitoring of Methane Fermentation for the Realization of Direct-Biogas SOFC, Annual Report of the Faculty of Engineering Kyushu University 2008, 2009.05.
Papers
1. Yusuke Shiratori, Mio Sakamoto, Performance improvement of direct internal reforming solid oxide fuel cell fuelled by H2S-contaminated biogas with paper-structured catalyst technology, Journal of Power Sources, 332, 2016.09.
2. Ayami Saimura, Yusuke Shiratori, Takuya Kitaoka, Dual-layered paper-structured catalysts for sequential desulfurization and methane-steam reforming of simulated biogas containing hydrogen sulfide, Journal of Materials Science , 52, 2016.09.
3. Y. Shiratori, M. Sakamoto, T. Uchida, H. Le, T. Quang-Tuyen, K. Sasaki, Hydrotalcite-dispersed paper-structured catalyst for the dry reforming of methane
, International Journal of Hydrogen Energy, 40, 320-327, 2015.07.
4. Yusuke Shiratori, Mio Sakamoto, TRAN QUANG TUYEN, Yasuyuki Uchiyama, Naoki Uchiyama, Performance of SOFC Power Unit Assisted by Paper-Structured Catalyst, ECS Transactions, 68, 1, 2015.07.
5. Q.T. Tran, T. Kaida, M. Sakamoto, K. Sasaki, Y. Shiratori, Effectiveness of paper-structured catalyst for the operation of biodiesel-fueled solid oxide fuel cell, Journal of Power Sources, 283, 320-327, 2015.02.
6. Q. T. Tran, Y. Shiratori, Y. Kakihara, T. Kitaoka, K. Sasaki, Study on Fuel Composition for the Performance Enhancement of Solid Oxide Fuel Cell Operated with Biodiesel Fuel, ECS Transactions, 57, 1, 3005-3011, 2013.10.
7. Y. Shiratori, M. Sakamoto, Y. Takahashi, Y. Wakita, M. Takada, T. Ogura, H. Nakajima, K. Sasaki, Development of Direct Internal Reforming SOFC Integrated with Paper-Structured Catalyst Fuelled by Biofuels, ECS Transactions, 57, 1, 2997-3004, 2013.10.
8. T. Ogura, Y. Shiratori, T. Shiraga, H. Tsukikawa, M. Tajima, Detailed Kinetic Modeling for Direct Biogas Reforming on Nickel Catalysts, Proceeding of the International Symposium on Innovative Materials for Processes in Energy Systems 2013, 38 , 2013.09.
9. Y. Shiratori, T. Ogura, H. Nakajima, M. Sakamoto, Y. Takahashi, Y. Wakita, T. Kitaoka, K Sasaki, Study on paper-structuredcatalyst for direct internal reforming SOFC fuelled by the mixture of CH4 and CO2, International Journal of Hydrogen Energy, 38 , 10542-10551, 2013.08.
10. Y. Shiratori, T.Q. Tran, K. Sasaki, Performance enhancement of biodiesel fuelled SOFC using paper-structured catalyst, International Journal of Hydrogen Energy, 38 , 9856-9866, 2013.08.
11. Y. Shiratori, T.Q. Tran, Y. Umemura, T. Kitaoka, K. Sasaki, Paper-structured catalyst for the steam reforming of biodiesel fuel, International Journal of Hydrogen Energy, 38 , 11278-11287, 2013.08.
12. T. Yoshizumi, S. Taniguchi, Y. Shiratori, K. Sasaki, Sulfur poisoning of SOFCs: Voltage Oscillation and Ni oxidation, J. Electrochem. Soc., 159, 11, F693-F701, 2012.08.
13. Y. Takahashi, Y. Shiratori, S. Furuta, K. Sasaki, Thermo-mechanical reliability and catalytic activity of Ni–Zirconia anode supports in internal reforming SOFC running on biogas , Solid State Ionics, In Press, 2012.04.
14. Tran Quang-Tuyen, Yusuke Shiratori, Kazunari Sasaki, Feasibility of palm-biodiesel fuel for a direct internal reforming solid oxide fuel cell, International Journal of Energy Research, published online, 2012.02.
15. K. Sasaki, K. Haga, T. Yoshizumi, D. Minematsu, E. Yuki, R.R. Liu, C. Uryu, T. Oshima, T Ogura, Y. Shiratori, K. Ito, M. Koyama, K. Yokomoto, Chemical Durability of SOFCs: Influence of impurities on long-term performance, Journal of Power Sources, 196, 22, 9130-9140, 2011.11.
16. R.R. Liu, S.H. Kim, S. Taniguchi, T. Oshima, Y. Shiratori, K. Ito, K. Sasaki, Influence of Water Vapor on Long-term Performance and Accelerated Degradation of Solid Oxide Fuel Cell Cathodes, Journal of Power Sources, 196, 17, 7090-7096, 2011.09.
17. F. Takasaki, S. Matsuie, Y. Takabatake, Z. Noda, A. Hayashi, Y. Shiratori, K. Ito, and K. Sasaki , Carbon-Free Pt Electrocatalysts Supported on SnO2 for Polymer Electrolyte Fuel Cells: Electrocatalytic Activity and Durability , J. Electrochem. Soc., 158, B1270–B1275, 2011.08.
18. F. Takasaki, S. Matsuie, Y. Takabatake, Z. Noda, A. Hayashi, Y. Shiratori, K. Ito, and K. Sasaki, Carbon-Free Pt Electrocatalysts Supported on SnO2 for Polymer Electrolyte Fuel Cells: Electrocatalytic Activity and Durability , J. Electrochem. Soc., 158, B1270–B1275, 2011.08.
19. Y. Shiratori, T.Q. Tran, Y. Takahashi, K. Sasaki, Application of Biofuels to Solid Oxide Fuel Cell, ECS Transactions, 35, 1, 2641-2651, 2011.05.
20. K. Sasaki, K. Haga, T. Yoshizumi, D. Minematsu, E. Yuki, R.R. Liu, C. Uryu, T. Oshima, S. Taniguchi, Y. Shiratori, K. Ito, Impurity Poisoning of SOFCs, ECS Transactions, 35, 1, 2805-2814, 2011.05.
21. H. Haga, Y. Shiratori, Y. Nojiri, K. Ito, K. Sasaki, Phosphorous Poisoning of Ni-Cermet Anodes in Solid Oxide Fuel Cells, J. Electrochem. Soc., 157, B1693-B1700, 2010.10.
22. R.R. Liu, S.H. Kim, S. Taniguchi, T. Oshima, Y. Shiratori, K. Ito, K. Sasaki, Influence of Water Vapor on Long-term Performance and Accelerated Degradation of Solid Oxide Fuel Cell Cathodes, Journal of Power Sources, in press, 2010.10.
23. Y. Shiratori, T. Ijichi, T. Oshima, K. Sasaki, Internal reforming SOFC running on biogas, International Journal of Hydrogen Energy, 35, 7905-7912, 2010.07.
24. Y. Shiratori, T. Ijichi, T. Oshima, K. Sasaki, Performance of Internal Reforming SOFC Running on Biogas, Proceedings of 9th European SOFC Forum, pp4-77-4-87, 2010.06.
25. K. Sasaki, K. Haga, D. Minematsu, T. Yoshizumi, R.R. Liu, Y. Shiratori, K. Ito, M. Koyama, K. Yokomoto, Chemical Durability of SOFCs: Influence of Impurities on Long-term Performance, Proceedings of 9th European SOFC Forum, pp7-51-7-60, 2010.06.
26. R.R. Liu, Y. Shiratori, T. Oshima, K. Sasaki, Water Vapor and SO2 Poisoning Effect on the Long-term Durability of SOFC Cathodes, Proceedings of 9th European SOFC Forum, pp7-148-7-155, 2010.06.
27. E. Yuki , T. Yoshizumi, Y. Shiratori, K. Sasaki, Sulfur Poisoning of SOFCs: Dependence on Operational Parameters, Proceedings of 9th European SOFC Forum, pp7-77-7-85, 2010.06.
28. K. Doumae, T. Usui, T. Yasui, S. Watanabe, T. Oshima, Y. Shiratori, K. Sasaki, Electrochemical properties of NiO-ScSZ anodes prepared from composite precursor containing Ni and Zr, ECS Transactions, 25(2), 1915-1920, 2009.10.
29. K. Araki, J. Yamamoto, Y. Shiratori, K. Ito, K. Sasaki, Performance and long-term durability of nanostructured Ni anodes doped with transition metals prepared by spray mist dryer, ECS Transactions, 25(2), 2039-2048, 2009.10.
30. H. Haga, Y. Shiratori, K. Ito, K. Sasaki, Chemical degradation and poisoning mechanism of cermet anodes in solid oxide fuel cells, ECS Transactions, 25(2), 2031-2038, 2009.10.
31. Y. Shiratori, T. Ijichi, T. Oshima, K. Sasaki, Generation of electricity from organic bio-wastes using solid oxide fuel cell, ECS Transactions, 25(2), 1051-1060, 2009.10.
32. Y. Shiratori, K. Sasaki, T.Q. Tran, Q. Huynh, Application of biofuels to solid oxide fuel cell, Proceedings of the 2009 International Forum on Strategic Technologies, Hochiminh, Vietnum, October 2009, 89-93, 2009.10.
33. R.R. Liu, S.H. Kim, Y. Shiratori, T. Oshima. K. Ito, K. Sasaki, The influence of water vapor and SO2 on the durability of solid oxide fuel cells, ECS Transactions, 25(2), 2859-2866, 2009.10.
34. F. Takasaki, A. Masao, Z. Noda, Y.Shiratori, K. Ito, K.Sasaki, Carbon-free Pt Electrocatalysts Supported on SnO2 for Polymer Electolyte Fuel Cells, ECS Transactions, 25(1), 831-837, 2009.10.
35. K. Haga, S. Adachi, Y. Shiratori, K. Itoh, K. Sasaki, Poisoning of SOFC anodes by various fuel impurities, Solid State Ionics, Volume 179, Issues 27-32, 1427-1431, 2008.09.
36. Y. Shiratori, T. Oshima, K. Sasaki, Feasibility of direct-biogas SOFC, International Journal of Hydrogen Energy, 2008.09.
37. K. Haga, Y. Shiratori, K. Ito, K. Sasaki, Chlorine Poisoning of SOFC Ni-Cermet Anodes, J. Electrochem. Soc., 155, B1233-B1239, 2008.09.
38. Yuji Kawazoe, Yusuke Shiratori, Kohei Ito, Kazunari Sasaki, Electrochemical Performance of Anode-Supported SOFCs Operated with Higher Hydrocarbon Fuels, 8th European SOFC Forum, 2008.07.
39. Y. Shiratori and K. Sasaki, NiO-ScSZ and Ni0.9Mg0.1O-ScSZ based anodes under internal dry reforming of simulated biogas mixtures
, Journal of Power Sources , Volume 180, Issue 2, 738-741, 2008.06.
40. Seon Hye Kim, Toshihiro Ohshima, Yusuke Shiratori, Kohei Itoh, Kazunari Sasaki , Effect of Water Vapor and SOx in Air on the Cathodes of Solid Oxide Fuel Cells, 2007 MRS Fall Meeting , Life-Cycle Analysis for New Energy Conversion and Storage Systems
MRS Proceedings Volume 1041, 2007.11.
41. Y. Shiratori, K. Sasaki, Microstructure and electrochemical properties of Ni1-xMgxO-ScSZ cermet anodes for biogas-fueled SOFCs, ECS Transactions, 7(1), 1701-1710, 2007.06.
42. K. Sasaki, S. Adachi, K. Haga, M. Uchimura, J. Yamamoto, A. Iyoshi, J.-T. Chou, Y. Shiratori, K. Itoh, Fuel Impurity tolerance of Solid Oxide Fuel Cells, ECS Transactions, 7(1), 1675-1683, 2007.06.
43. Y. Shiratori, Y. Teraoka, K. Sasaki, Ni1-x-yMgxAlyO-ScSZ Cermet Anodes for Biogas-Fueled SOFCs, Proceedings of 7th European SOFC Forum, p94, 2006.07.
44. K. Sasaki, K. Susuki, A. Iyoshi, S. Adachi, M. Uchimura, N. Imamura, Y. Shiratori, H. Kusaba, Y. Teraoka, Fuel Impurity Tolerance of Solid Oxide Fuel Cells, Proceedings of 7th European SOFC Forum, 2006.07.
45. Y. Shiratori, Y. Teraoka, K. Sasaki, Ni1-x-yMgxAlyO-ScSZ anodes for Solid Oxide Fuel Cells, Solid State Ionics, Volume 177, Issues 15-16, 1371-1380, 2006.06.
46. Y. Shiratori, F. Tietz, H.J. Penkalla, J.Q. He, Y. Shiratori, D. Stoever, Influence of impurities on the conductivity of composites in the system (3YSZ)1-x-(MgO)x, Journal of Power Sources, 148, Volume 148, 32-42, 2005.04.
47. Y. Shiratori, F. Tietz, H.P. Buchkremer, D. Stoever, YSZ-MgO Composite Electrolyte with Adjusted Thermal Expansion Coefficient to Other SOFC Components, Solid State Ionics, Volume 164, 27-33, 2004.01.
48. Y. Shiratori, Y. Yamazaki, Discharge Characteristics of Planar Stack Fuel Cells, Journal of Power Sources, Volume 114, 80-87, 2003.01.
49. Y. Shiratori, Y. Yamazaki, A Novel High-Voltage Single-Chamber SOFC with Series Connected Cells, I. Operating Characteristics of Two Segments Cell, Proceedings of the Seventh International Symposium on Solid Oxide Fuel Cells, p1012-1021, 2001.01.
50. Y. Shiratori, Y. Yamazaki, Study of High Voltage Single Chamber SOFC with Series Connected Cells I, IV-IP characteristics of Two Segments Cell, Electrochemistry, Volume 69, 92-97, 2001.01.
Presentations
1. NGUYEN THI GIANG HUONG, TRAN QUANG TUYEN, TRAN LONG DANG, 坂本 美緒, 白鳥 祐介, Ni-loaded ceria-dispersed paper-structured catalyst for internal reforming solid oxide fuel cell, Asian SOFC Symposium 2016, 2016.09.06.
2. TRAN LONG DANG, TRAN QUANG TUYEN, 白鳥 祐介, NGUYEN THI GIANG HUONG, A Novel Approach for the Modeling of Internal Reforming SOFCOperated by CH4-based Fuel, Asian SOFC Symposium 2016, 2016.09.06.
3. TRAN LONG DANG, TRAN QUANG TUYEN, 白鳥 祐介, Numerical Evaluation of Direct Internal Reforming SOFC Operated with Biogas, 12th European SOFC & SOE Forum 2016, 2017.07.06.
4. 甲斐田 拓, 坂本 美緒, 楽豪, TRAN QUANG TUYEN, 白鳥 祐介, Paper-structured catalyst for the stable operation of direct-internal reforming SOFC running on biofuels, 12th European SOFC & SOE Forum 2016, 2017.07.06.
5. Tran Dang Long, TRAN QUANG TUYEN, Yusuke Shiratori, Catalytic and Electrochemical Behaviour of Solid Oxide Fuel Cell Operated with Simulated Biogas-Mixtures, 2015 Regional Conference on Energy Engineering, 2015.11.19.
6. Yusuke Shiratori, Sustainable Development of Rural Area by Effective Utilization of Bio-wastes with Highly Efficient Fuel Cell Technology, International Symposium of SATREPS-programs on Sustainable Aquatic Bioresources, 2015.11.19.
7. Yusuke Shiratori, Mio Sakamoto, Tomomi Uchida, Hao Le, Taku Kaida, TRAN QUANG TUYEN, Flexible Structured-Catalyst for Solid Oxide Fuel Cell Technology, 5th International Workshop on Nanotechnology and Application, 2015.11.13.
8. Yusuke Shiratori, Mio Sakamoto, TRAN QUANG TUYEN, Yasuyuki Uchiyama, Naoki Uchiyama, Performance of SOFC Power Unit Assisted by Paper-Structured Catalyst, 14th International Symposium on Solid Oxide Fuel Cells (SOFC-XIV), 2015.07.30.
9. D.S. Rivera, Takayoshi Ishimoto, Yusuke Shiratori, TRAN QUANG TUYEN, Michihisa KOYAMA, Theoretical Study of Inorganic Carbonaceous Species Reaction with the Surfaces of BaTiO3(001), 14th International Symposium on Solid Oxide Fuel Cells (SOFC-XIV), 2015.07.28.
10. Tran Quang-Tuyen, 甲斐田 拓, 坂本 美緒, 内田 友美, 楽 豪, 白鳥 祐介, 佐々木 一成, Impact of paper-structured catalyst on SOFC operated by liquid biofuel, 第55回電池討論会, 2014.11.19.
11. Y. Shiratori, Q.T. Tran , Y. Wakita, M. Sakamoto, K. Sasaki , Application of Paper-Structured Catalyst to Solid Oxide Fuel Cell, 20th World Hydrogen Energy Conference 2014, 2014.06.19.
12. Y. Shiratori, M. Sakamoto, Y. Takahashi, Y. Wakita, M. Takada, T. Ogura, H. Nakajima, K. Sasaki, Development of Direct Internal Reforming SOFC Integrated with Paper-Structured Catalyst Fuelled by Biofuels, Thirteenth International Symposium on Solid Oxide Fuel Cells (SOFC-XIII), 2013.10.08.
13. Q.T. Tran, Y. Shiratori, Y. Kakihara, T. Kitaoka, K. Sasaki, Study on Fuel Composition for the Performance Enhancement of Solid Oxide Fuel Cell Operated with Biodiesel Fuel, Thirteenth International Symposium on Solid Oxide Fuel Cells (SOFC-XIII), 2013.10.08.
14. T. Ogura, Y. Shiratori, T. Shiraga, H. Tsukikawa, M. Tajima, Detailed Kinetic Modeling for Direct Biogas Reforming on Nickel Catalysts, International Symposium on Innovative Materials for Processes in Energy Systems (IMPRES) 2013, 2013.09.06.
15. Y. Shiratori, Catalyst Material Development for Internal Reforming SOFC Fuelled by Sustainable Biofuels, 2nd International Symposium on Solid Oxide Fuel Cells for Next Generation Power Plants: SOFCs and Renewable Energy, 2013.04.19.
16. Tran Tuyen Quang, 白鳥 祐介, 北岡 卓也, 佐々木 一成, Biodiesel fuel conversion to renewable electricity with a new SOFC concept, 第53回電池討論会, 2012.11.15.
17. 小倉 鉄平, 白鳥 祐介, 月川 久義, 田島 正喜, Kinetic Simulations of Temperature Distribution in Catalytic Hydrogen Production from Biogas, 第28回化学反応討論会, 2012.06.06.
18. Direct-biogas SOFC was operated by feeding the mixture of CH4 and CO2. Stable operation without carbon deposition (cell voltage of ca. 0.98 V at 200 mA cm-2) was achieved at 900 oC over 200 h. Ni agglomeration during operation was reduced by the addition of MgO to Ni catalyst and Ni0.9Mg0.1O-ScSZ exhibited higher reforming activity than that of NiO-ScSZ.
Degradation caused by H2S poisoning was classified into two stages, initial and second voltage drops. Initial voltage drop corresponded to increase in anodic overvoltage and second voltage drop was accompanied by both of increases in anodic overvoltage and anode-side IR drop. Direct-biogas SOFC with Ni0.9Mg0.1O-ScSZ anode operated at higher temperature was more tolerant to H2S contamination.
.
19. Fuel Impurity tolerance of Solid Oxide Fuel Cells,
K. Sasaki, A. Iyoshi, S. Adachi, M. Uchimura, K. Susuki, Y. Shiratori, H. Kusaba, Y. Teraoka,
The 13th FCDIC Fuel Cell Symposium, Tokyo.
20. Discharge characteristics of the internal reforming SOFCs using Ni1-x-yMgxAlyO-ScSZ as anode materials,
Y. Shiratori, Y. Teraoka, K. Sasaki,
The 14th Symposium on Solid Oxide Fuel Cells in Japan, Tokyo.
21. Anode surface structural change of internal reforming SOFCs for hydrocarbons,
N. Imamura, K. Shiozaki, Y. Shiratori, H. Kusaba, Y. Teraoka, K. Sasaki,
The 14th Symposium on Solid Oxide Fuel Cells in Japan, Tokyo.
22. Microstructure and cel voltage stability of SOFC anodes,
S. Adachi, Y. Shiratori, H. Kusaba, Y. Teraoka, K. Sasaki,
The 14th Symposium on Solid Oxide Fuel Cells in Japan, Tokyo.
23. Novel multilayer anodes for the internal reforming SOFCs,
Yusuke Shiratori, Kazunari Sasaki, Yasutake Teraoka,
The 46th Battery Symposium in Japan, Nagoya.
24. SOFC power generation characteristics and changes in anode microstructures by sulfur fuel impurity,
A. Iyoshi, K. Sasaki, Y. Shiratori, H. Kusaba, Y. Teraoka, H. Fuchino, N. Jingo,
The 46th Battery Symposium in Japan, Nagoya.
25. Composite electrolytes based on (3YSZ)1-x-(MgO)x for the fabrication of reliable anode-supported SOFCs
Y. Shiratori, F. Tietz, J. Mertens, W. Herzhof, D. Stoever
(Forschungszentrum Jülich, Institute for Materials and Processes in Energy Systems (IWV-1), 52425 Jülich, Germany)
72th Electrochemical Society Conference in Japan.
Membership in Academic Society
  • The Japan Society of Mechanical Engineers
  • The Electrochemical Society of Japan
  • The SOFC Society of Japan
Educational