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  東京大学生産技術研究所 横川晴美研究室

 YOKOKAWA Lab. Institute of Industrial Science, The University of Tokyo


研究業績PUBLICATION

4) その他の論文

 
a) 英文総説・解説

7. Harumi Yokokawa, “NEDO Projects on Fundamental Investigation on Durability / Reliability of SOFC Stacks,” in ‘State-of-the-art Fuel Cells and Hydrogen Technology in Japan - Collected from the 20th FCDIC Fuel Cell Symposium and the 1st FCV Forum,’ Fuel Cell Development Information Center, Tokyo, pp31-37 (2014)
6. H. Yokokawa, N. Sakai, T. Horita, K. Yamaji. M. E. Brito, “Electrolytes for Solid Oxide Fuel Cells,” Mater. Bul. 30(8), 591-595 (2005)
5. H. Yokokawa, N. Sakai, T. Horita, K. Yamaji, M.E. Brito, “Solid Oxide Electrolytes for High Temperature Fuel Cells,” Electrochemistry 73(1), 20-30 (2005)
4. Natsuko Sakai, Harumi Yokokawa, Teruhisa Horita and Katsuhiko Yamaji, “Lanthanum Chromite-Based Interconnects as Key Materials for SOFC Stack Development,” Int. J. Appl. Ceram. Technol. 1(1), 23-30 (2004)
doi:10.1111/j.1744-7402.2004.tb00151.x
3. Teruhisa Horita, Katsuhiko Yamaji, Natsuko Sakai, Tohru Kato, Tetsuya Kawada, Harumi Yokokawa, “Oxygen Transport at the Hetero Interfaces of Electrochemical Ceramic Devices,” Key Engineering Materials 253, 179-196 (2003)
doi:10.4028/www.scientific.net/KEM.253.179
2. Harumi Yokokawa, “Understanding Materials Compatibility,” Annu. Rev. Mater. Res.33, 581-610 (2003)
doi:10.1146/annurev.matsci.33.022802.093856
1. Harumi Yokokawa, “Recent Developments in Solid Oxide Fuel Cell Materials,” Fuel Cells - from Fundamentals to Systems, 1(2), 1-15 (2001)
 


 
b) 和文解説
76. 横川晴美、「第4章 固体酸化物形燃料電池技術開発の歴史」「日本の燃料電池開発の歴史 燃料電池開発情報センター創立30周年」燃料電池開発情報センター, pp.34-67 (2017)
75. 横川晴美、「SOFC電極劣化機構の解明と今後の展望」Electrochemistry, 83(9), 734-738 (2015)
doi:10.5796/electrochemistry.83.734
74. 横川晴美、「高温材料熱力学の室温多元系Pourbaix線図への応用」材料と環境 62(9), 303-309 (2013)doi:10.3323/jcorr.62.303
73. 横川晴美、「SOFC材料の最近の進展」燃料電池 12(4), 46-53 (2013)
72. 横川晴美、「SOFCの耐久性・信頼性に関する基礎研究の成果」セラミックス, 48(3), 1-6 (2013)
71. 横川晴美、「固体酸化物形燃料電池開発の進展と耐久性の向上」PETROTECH, 35(11), 825-830 (2012)
70. 横川晴美、「SOFCの耐久性向上にむけた産官学連携について」燃料電池 12(1), 6-13 (2012)
69. 横川晴美、「固体酸化物形燃料電池システム開発の経緯と展望」Electrochemistry, 80(4), 250-255 (2012)
doi:10.5796/electrochemistry.80.250
68.  横川晴美、「SOFCシステムの今後の発展を期待して」水素エネルギーシステム, 37(2), 1(2012):

堀田照久、山地克彦、岸本治夫、下之園太郎、M.E Brito、横川晴美、「SOFCの耐久性向上のための劣化機構解明」水素エネルギーシステム, 37(2)、19 (2012)
67. 横川晴美、「Fuel Cell Seminar Awardを受賞して」燃料電池, 11(3), 98-101 (2011)
[Review]
66. 横川晴美、「固体酸化物形燃料電池開発の経緯と今後の展望」燃料電池, 10(3), 1 (2011)
65. 横川晴美、「固体酸化物形燃料電池開発の経緯と展望」水素エネルギーシステム, 35(2), 41-49 (2010)
64. 堀田照久、山地克彦、岸本治夫、横川晴美、「固体酸化物形燃料電池の実用化に向けた課題と見通し(特に信頼性向上を目指した研究開発について)」セラミックス, 44(4), 267 (2009)
63.  横川晴美、「熱力学データベースの高温材料科学への応用―酸塩基性と原子価安定性との関連で―」、セラミックス, 42(12), 925-929 (2007)
62. 横川晴美、山内繁、松本隆史「熱力学データベースMALTの構築に携わって」熱測定, 34(1), 14-21 (2007)
doi:10.11311/jscta1974.34.14
61. 横川晴美、「第6章 固体酸化物形燃料電池(SOFC)」水素・燃料電池ハンドブック、オーム社、(2006)
60. 横川晴美、「固体酸化物形燃料電池の新たな展開」燃料電池, 5(4), 2-7 (2006)
59. 横川晴美、「固体酸化物形燃料電池材料への化学ポテンシャル図の適用」高温学会誌, 32(2), 96-101 (2006)
58.  横川晴美、「熱力学は材料科学の共通言語」日本MRSニュース 18(1), 1 (2006)
57. 酒井夏子、横川晴美、「4.SOFCの劣化要因について」in Development of Solid Oxide Fuel Cells,” ed. K. Eguchi, CMC Book, Tokyo, pp.215-222 (2005)
56. 横川晴美、堀田照久、「第2章 SOFCの開発動向」in Development of Solid Oxide Fuel Cells,” ed. K. Eguchi, CMC Book, Tokyo, pp.14-25 (2005)
55. 横川晴美, 「固体酸化物形燃料電池における炭化水素の利用」炭素原料科学と材料設計, VII, 92-102, (2005)
54. 横川晴美、「新エネルギー開発の最先端を紐解く」UA機内誌, 24-27 (2005)
53. 酒井夏子、山地克彦、堀田照久、Manuel Eduardo Brito、横川晴美、「固体酸化物形燃料電池(SOFC)材料の劣化現象とその予測について」まてりあ, 44(3), 207-210, (2005)
doi:10.2320/materia.44.207
52. 横川晴美, 「メンブレーンレアターとしての固体酸化物形燃料電池」膜, 29(5), 272-278, (2004)
doi:10.5/membrane.29.272
51.  横川晴美、「エネルギー利用多様化への取り組み 固体酸化物形燃料電池における炭化水素系燃料の利用」ペトロテック, 27(9), 713-718, (2004)
50. 酒井夏子、山地克彦、堀田照久、横川 晴美、「電解質と水蒸気の相互作用と、表面反応および電気化学反応における影響」電気化学および工業物理化学, 72(5), 339-343, (2004)
49.  酒井夏子、横川晴美、「固体酸化物型燃料電池の開発動向と材料問題について」エコインダストリー, 9(4) ,5-13, (2004)
48. 酒井夏子、横川晴美、「固体酸化物形燃料電池材料の開発動向」ケミカル・エンジニヤリング, 48(4), 16-23, (2003)
47. 横川晴美、酒井夏子、日比野高士、嘉藤徹、「産業技術総合研究所におけるSOFCの研究開発状況」燃料電池, 2(3), 36-37 (2003)
46. 横川晴美、「固体酸化物形燃料電池の開発状況」燃料電池, 2(3), 4-11 (2003)
45. 酒井夏子、山地克彦、堀田照久、熊岳平、横川晴美、「固体酸化物形燃料電池(SOFC)における含希土類材料」希土類, 41, 69-77, (2002)
44. 山地克彦、横川晴美、「固体酸化物形燃料電池」月刊ディスプレイ, 8(6), 31-35 (2002)
43. 横川晴美、「化学ポテンシャル図による酸化物の化学的安定性の解析・予測」セラミックス, 37(7), 516-523 (2002)
42. 堀田照久、横川晴美、「酸化物イオン伝導体の燃料電池への応用」マテリアルインテグレーション, 14(11), 60-64 (2001)
41. 堀田照久、横川晴美、「SOFCの開発動向(第7回固体酸化物燃料電池国際シンポジウム報告を中心に)」, 燃料電池, 1(2), 36-38, (2001)
40. 横川晴美、酒井夏子、堀田照久、山地克彦、「酸化物イオン伝導体の最近の話題」燃料電池, 69(10), 797-801 (2001)
39. 横川晴美、「SOFC材料開発の現状と展望」セラミックス, 36(7), 472-476 (2001)
38.  横川晴美、「熱力学データベースMALT」熱物性, 14(3), 215-219 (2000)
37. 酒井夏子、横川晴美、「固体酸化物型燃料電池材料のTG-MSによる研究」マテリアルインテグレーション,13(10), 73-76, (2000)
36. 横川晴美、「最新の燃料電池開発の状況―固体酸化物燃料電池を中心にしてー」真空技術, 72(9), 8-11 (2000)
35. 酒井夏子、山地克彦、堀田照久、石川政彦、横川晴美、「ペロブスカイト型複合酸化物中の粒界における物質移動」セラミックデータブック, 25(79), 81-85 (1997)
34. 横川晴美、酒井夏子、堀田照久、山地克彦、根岸秀之、「固体酸化物燃料電池の開発の現状」高温学会誌, 25(5), 171-179 (1999)
33.  酒井夏子、山地克彦、根岸秀之、堀田照久、横川晴美、「固体酸化物燃料電池材料の熱物性」、熱物性、(1999)
32. 堀田照久、横川晴美、「固体酸化物燃料電池における反応解析」化学工業, 748-755 (1999)
31.  横川晴美、「固体酸化物型燃料電池(SOFC)のすべて、1.固体酸化物型燃料電池の原理」燃料電池開発情報センター (1999)
30. 横川晴美、「化学ポテンシャル図とアパタイト」Phosphorus Letter 35, 7-13 (1999)
29. 横川晴美、「固体酸化物形燃料電池の材料開発技術」電気化学, 66(2), 134-140 (1998)
28. 横川晴美、「一般化された化学ポテンシャル図の基礎から応用まで」まてりあ,
第1回化学ポテンシャル図の基礎,35(9),1025-1030 (1996)
doi:10.2320/materia.35.1025;
第2回3元系の化学ポテンシャル図複合酸化物の化学的挙動,35(10), 1133-1139 (1996) doi:10.2320/materia.35.1133;
第3回異種材料界面の化学的安定性と反応性,35(11), 1250-1255 (1996)
doi:10.2320/materia.35.1250;
第4回多元系への拡張,35(12), 1345-1351 (1996)
doi:10.2320/materia.35.1345
27. 横川晴美、「熱力学データベースの最近の動き」熱測定, 23(2), 70-78 (1996)
doi:10.11311/jscta1974.23.70
26. 横川晴美、「熱力学データ算出と応用の接点」熱測定, 22(3), 184-185 (1995)
doi:10.11311/jscta1974.22.184
25. 横川晴美、「まとめに代えて」熱測定, 22(3), 185 (1995)
doi:10.11311/jscta1974.22.185
24. 横川晴美、「熱力学データベースMALT2について」セラミックス, 28(8) 759-761 (1993)
23. 横川晴美、「熱力学データベースMALT2について」熱物性, 7(1),  63-65 (1993)
doi:10.2963/jjtp.7.63
22. 横川晴美、「1.4 ア熱力学データベース」実験化学講座、温度・熱、圧力、丸善 pp.21-24 (1992)
21. 松本隆史、横川晴美、「勾配ベクトル射影法による化学平衡計算」熱測定, 19(4), 170-173 (1992)
doi:10.11311/jscta1974.19.170
20. 山内繁、横川晴美、「熱力学データベースと温度目盛」熱測定,18(2),104-105(1991)
doi:10.11311/jscta1974.18.104
19. 横川晴美、「熱力学データベースとセラミックス」セラミックス, 26(5), 433-438(1991)
18. 横川晴美、「エネルギー材料と材料設計」特技懇156, 43-47(1991)
17. 横川晴美、「セラミックスの熱容量」熱物性ハンドブック、日本熱物性学会 (1990)
16. 横川晴美、「10.熱力学データベースにおけるCODATAの活動について」新熱測定の進歩 Vol.1,
125-134 (1990)
15. 横川晴美、「2.熱力学データベースの応用:化学ポテンシャル図を中心にして」新熱測定の進歩 Vol.1, 9-22 (1990)
14. 横川晴美、「材料製造への熱力学データベースの応用」化学工学, 54(10), 734-741 (1990)
13. 横川「熱力学データベースMALTについて」新熱分析の基礎と応用, 232 (1989)
12. 横川晴美、「熱力学データを使いこなすために3」618-622、「同4」791-795 (1988)、「同11」1006-1009、「同12」1090-1092 (1989)
11. 横川晴美、「日本科学技術情報センター賞を受賞して」情報管理,32(4),263(1989)
doi:10.1241/johokanri.32.263
10. 土器屋正之、横川晴美、「固体電解質燃料電池におけるジルコニア」ジルコニアセラミックス10, 209-220 (1988)
9. 横川晴美、「腐食と熱力学データベースの使い方」防食技術,37(8), 524-525 (1988)
doi:10.3323/jcorr1974.37.8_524
8. 横川晴美、山内繁、「4.熱力学データベース」熱測定の進歩 vol.4, 19-28 (1986)
7. 横川晴美、「構造マップー材料設計の化学的アプローチの一例としてー」化学工業 826-831 (1985)
6. 横川晴美、「無機化合物熱力学データベースの作成を終えて」熱測定, 12(3), 144-148 (1985)
doi:10.11311/jscta1974.12.144
5. 横川晴美、「アルミニウム新製錬法(溶鉱炉法)の化学熱力学」熱測定, 11(2), 72-80 (1984)
doi:10.11311/jscta1974.11.72
4. 土器屋正之、横川晴美、「アルミニウム溶鉱炉法 原理と開発の考え方」鉄と鋼, 69(11), 1382-1387(1983)
doi:10.2355/tetsutohagane1955.69.11_1382
3. 亀山哲也、土器屋正之、横川晴美、福田健三、「多孔質セラミックス膜を用いる高温高圧下のガス分離」
材料科学, 15(2), 104-109 (1978)
2. 高橋洋一、横川晴美、「セラミック材料の熱物性の測定」セラミックス, 11(5), 399-407 (1976)
1. 高橋洋一、横川晴美、「熱容量の最近の進歩-非断熱法を中心に-」熱測定, 3(2), 45-54 (1976)
doi:10.11311/jscta1974.3.45


c) 所内報
9. N. Sakai, K. Yamaji, T. Horita, H. Yokokawa, T. Kawada, M. Dokiya "Oxygen Permeation Mechanism in Lanthanum Chromites, La1-xCaxCrO3-d," Journal of the National Institute of Materials and Chemical Research 8(2), 77-87 (2000)
8. 横川, 酒井,川田,土器屋「エネルギー材料と材料設計」化学技術研究所報告 86, 311-314 (1991)
7.  横川  「無機化合物熱力学関数表」化技研報告 83, 別冊号, 27 (1988)
6. 横川、藤重、氏家、土器屋、「CTC:化学熱力学計算システムの構築」化技研報告 83, 別冊号, 1 (1988)
5. 氏家、藤重、横川、土器屋  「Si-Al-Fe-C-O系混合物中のケイ素の化学分析」化技研報告 81, 159 (1986)
4. 横川晴美「アルミニウム溶鉱炉法の基礎、(その3)アルミニウム化合物の高温挙動」化学工業資料 18(6), 213-235 (1983)
3. 横川晴美 「アルミニウム溶鉱炉法の基礎、(その2)溶鉱炉法の特徴と開発課題」化学工業資料18(6), 194-212 (1983)
2. 横川晴美、藤重昌夫、亀山哲也、氏家誠一、土器屋正之、福田健三、「アルミニウム溶鉱炉法の基礎、(その1)アルミニウム製錬化学における溶鉱炉法の位置づけ」、化学工業資料, 17(3), 75-104 (1982)
1. 亀山、土器屋、横川、福田「多孔質セラミックス膜を用いる高温高圧下のガス分離-硫黄系サイクルによる水の熱化学的分離との関連で」化学工業資料 12, 95 (1977)


d) 査読のない国際会議録
90. Katherine Develos-Bagarinao, Haruo Kishimoto, Tomohiro Ishiyama, Teruhisa Horita, Harumi Yokokawa, Katsuhiko Yamaji, "Probing Oxide Ion Transport in Fluorite and Perovskite Oxides for Solid Oxide Fuel Cells, "ECS Trans., 72(7), 139-148 (2016)
doi:10.1149/07207.0139ecst
89. Harumi Yokokawa, “Thermodynamics of LSM-YSZ Interfaces - A Revisit with Confirmed La2Zr2O7 Thermodynamic data,” Proc. 11th European SOFC-SOE Forum 2014, Chap. 10-B0624, 1344-1353, (2014)
88. Harumi Yokokawa, “Towards Comprehensive Description of Stack Durability/Reliability Behavior,” Proc. 11th European SOFC-SOE Forum 2014, Chap.10-B0605, 1220-1229, (2014)
87. Jan Hayd, Harumi Yokokawa, and E. Ivers-Tiffée, “Solid-gas interactions at the surface of La0.6Sr0.4CoO3-d cathodes and their impacts,” Proc. 11th European SOFC-SOE Forum 2014, Chap 10-B0301, pp.918-922, (2014) 
86.  Fangfang Wang, Katsuhiko Yamaji, Do-Hyung Cho, Taro Shimonosono, Mina Nishi, Haruo Kishimoto, Manuel E. Brito, Teruhisa Horita, and Harumi Yokokawa, “Influence of Water Vapor on Sulfur Distribution Within La0.6Sr0.4Co0.2Fe0.8O3 Cathode,” ECS Trans., 50(27), 143-150 (2013)
85. Do-Hyung Cho, Haruo Kishimoto, Manuel E. Brito, Katsuhiko Yamaji, Mina Nish, Taro Shimonosono, Fangfang Wang, Harumi Yokokawa and Teruhisa Horita, “Cathode Performance and Deposited Cr under Cr Poisoning Condition in the (La0.6Sr0.4)(Co0.2Fe0.8)O3 Cathode,” ECS Transactions 50(27), 125-131 (2013)
doi:10.1149/05027.0125ecst
84.
Teruhisa Horita, Do-Hyung Cho, Taro Shimonosono, Mina Nishi, Haruo Kishimoto, Katsuhiko Yamaji and Harumi Yokokawa, "Imaging of Oxide Ionic Diffusion at Cathode/Interlayer/Electrolyte Interfaces for Solid Oxide Fuel Cells: long-term operation effects,"ECS Transactions (16), 1973-1973 (2013)
doi:10.1149/05027.0125ecst
83. Harumi Yokokawa, “Materials Science Viewpoint for Recent Development of Solid Oxide Fuel Cells,” Proc. 13th Asian conference on Solid State ionics, Sendai, Japan, July 17-20, (2012)
doi:10.1142/9789814415040_0022
82. Fangfang Wang, Manuel E. Brito, Katsuhiko Yamaji, Taro Shimonosono, Mina Nishi, Do-Hyung Cho, Haruo Kishimoto, Teruhisa Horita, Harumi Yokokawa, “Cation Diffusion Behavior in the LSCF/GDC/YSZ System,” in Proceedings of 10th European SOFC Forum 2012, ed. F. Lefebvre-Joud et al., paper B0512, (2012)
81. M. Nishi, K. Yamaji, H. Yokokawa, T. Shimonosono, H. Kishimoto, M. E. Brito, D. Cho, and F. Wang, T. Horita, “LaNi0.6Fe0.4O3 cathode performance on Ce0.9Gd0.1O2 electrolyte,” in Proceedings of 10th European SOFC Forum 2012, ed. F. Lefebvre-Joud et al., paper B0408, (2012)
80. Kazuo Nakamura, Takaaki Somekawa, Kenjiro Fujita, Kenji Horiuchi, Yoshio Matsuzaki, Satoshi Yamashita, Harumi Yokokawa, Teruhisa Horita, Katsuhiko Yamaji, Haruo Kishimoto, Masahiro Yoshikawa, Tohru Yamamoto, Yoshihiro Mugikura, Satoshi Watanabe, Kazuhisa Sato, Toshiyuki Hashida, Tatsuya Kawada, Nobuhide Kasagi, Naoki Shikazono, Koichi Eguchi, Toshiaki Matsui, Kazunari Sasaki, Yusuke Shiratori, “Study on Durability of Flattened Tubular Segmented-in-Series Type SOFC Stacks,” in Proceedings of 10th European SOFC Forum 2012, ed. F. Lefebvre-Joud et al., paper A1206, (2012)
79. Do-Hyung Cho, Teruhisa Horita, Haruo Kishimoto, Katsuhiko Yamaji, Manuel E. Brito, Mina Nishi, Taro Shimonosono, Fangfang Wang, Harumi Yokokawa, “Chromium Poisoning Mechanism of
(La0.6Sr0.4)(Co0.2Fe0.8)O3 Cathode,” in Proceedings of 10th European SOFC Forum 2012, ed. F. Lefebvre-Joud et al., paper A1014, (2012)
78. Fangfang Wang, Katsuhiko Yamaji, Do-Hyung Cho, Taro Shimonosono, Mina Nishi, Haruo Kishimoto, Manuel E. Brito, Teruhisa Horita, Harumi Yokokawa, “Evaluation of Sulfur Dioxide Poisoning for LSCF Cathodes,” in Proceedings of 10th European SOFC Forum 2012, ed. F. Lefebvre-Joud et al., paper A1005, (2012)
77. Harumi Yokokawa, Teruhisa Horita, Katsuhiko Yamaji, Haruo Kishimoto, Tohru Yamamoto, Masahiro Yoshikawa, Yoshihiro, Mugirura, Tatsuo Kabata, Kazuo Tomida, “Chromium Poisoning of LaMnO3-baseed Cathodes within Generalized Approach,” in Proceedings of 10th European SOFC Forum 2012, ed. F. Lefebvre-Joud et al., paper A1003, (2012)
76. Harumi Yokokawa, “Recent Activities of SOFC Research Development and Demonstration in Japan,” Proc. 9th Liege Conference on Materials for Advanced Power Engineering, Liege, Belgium, September 29, (2010)
75. Haruo Kishimoto, Katsuhiko Yamaji, Manuel E. Brito, Teruhisa Horita and Harumi Yokokawa, “Feasibility of liquid fuels for SOFC with Ni-Base Anode,” Advances in Science and Technology,72, 230-236 (2010)
74. Manabu Izuki, Manuel E. Brito, Katsuhiko Yamaji, Haruo Kishimoto, Do-Hyung Cho, Taro Shimonosono, Teruhisa Horita, and Harumi Yokokawa, “Interfacial Stability and Cation Diffusion across the LSCF/GDC interface 9th European SOFC forum Proceedings, 1024, European Fuel Cell Forum, (2010)
73. Harumi Yokokawa, Katsuhiko Yamaji, W. E. Brito, Haruo Kishimoto, Teruhisa Horita, “General Considerations on Degradation of SOFC Anodes and Cathodes Due to Impurities in Gases,” 9th European SOFC forum Proceedings, 0701, European Fuel Cell Forum, (2010)
72. Teruhisa Horita, Haruo Kishimoto, Katsuhiko Yamaji, Manuel Eduardo Brito, Harumi Yokokawa, “Coating of Dense Oxide Layer on the Fe-Cr Alloys for Interconnects of Solid Oxide Fuel Cells,” Proceedings of TMS2010 467-472 (2010)
71. Teruhisa Horita, Masashi Yoshinaga, Haruo Kishimoto, Katsuhiko Yamaji, Y. P. Xiong, , Manuel Eduardo Brito, Harumi Yokokawa, “Thermal cycling effects on oxide scales formation of Fe-Cr alloys for SOFCs,” Proceedings of MS&T09, 348-354 (2009)
70. T. Horita, H. Kishimoto, K. Yamaji, Y.P. Xiong, M. E. Brito, H. Yokokawa, Y. Baba, K. Ogasawara, H, Kameda, Y. Matsuzaki, S. Yamashita, N. Yasuda, and T. Uehara, “Oxygen Diffusivity in Oxide Scales of Fe-Cr Alloy Interconnects,” Proceedings of 8th European Solid Oxide Fuel Cell Forum, Lucerne, Switzerland, July 2008, A0915, (2008)
69. H. Kishimoto, K. Yamaji, T. Horita, Y. P. Xiong, M. E. Brito, H. Yokokawa, “Stability of the Ni-base Anode for Hydrocarbon Fuels Containing Sulfur,” Proceedings of 8th European Solid Oxide Fuel Cell Forum, A0524, July (2008)
68. H. Yokokawa, T. Horita, K. Yamaji, H. Kishimoto, Y. P. Xiong, M. E. Brito, “Effect of Contamination on the Durability of SOFC Stacks and Modules in Real Operation Condition,” Proceedings of 8th European Solid Oxide Fuel Cell Forum, B1004, July (2008)
67. T. Horita, H. Kishimoto, K. Yamaji, Y. P. Xiong, N. Sakai, M. E. Brito, H. Yokokawa, “Evaluation of Laves-Phase Forming Fe-Cr Alloys for SOFC Interconnects in Reducing Atmosphere,” Proceedings of the 6th International Conference on Materials Processing for Properties and Performance, ID1070, September (2007)
66. T. Horita, H. Kishimoto, K. Yamaji, N. Sakai, Y. P. Xiong, M. E. Brito, H. Yokokawa, “Visualization of Mass Transports of Electrochemical Reaction For Solid Oxide Fuel Cell,” Proceedings of 4th Fulrath Memorial International Symposium on Advanced Ceramics, Tokyo, Japan, pp.31-35, April, (2007)
65. T. Horita, H. Kishimoto, N. Sakai, K. Yamaji, Y. P. Xiong, M. E. Brito., H. Yokokawa, “Anomalous Oxidation of Ferritic Interconnects in Solid Oxide Fuel Cells,” Proc. TMS 2007, February 2007, pp.272-33, (2007)
64. H. Yokokawa, “Generalized Chemical Potential Diagrams and Their Application to Electrochemical Devices,” The 16th Iketani Conference Electrochemistry and Thermodynamics on Materials Processing for Sustainable Production: Masuko Symposium, Tokyo, Japan, November 2006, pp. 557-564, (2006)
63. A. Kawakami, S. Matsuoka, N. Watanabe, K. Taito, A. Ueno, T. Ishihara, N. Sakai, H. Yokokawa, “Development of Two Types of Tubular SOFCs at TOTO,” Advanced in Solid Oxide Fuel Cells II, Ceramic Engineering and Science Proceedings, Vol. 27, No. 4, pp.3-13, November (2006)
62. Katsuhiko Yamaji, Yue-Ping Xiong, Haruo Kishimoto, Teruhisa Horita, Natsuko Sakai, Manuel E. Brito, Harumi Yokokawa, “Electronic Conductivity of La0.8Sr0.2Ga0.8Mg0.2-xCOxO3-δ Electrolyte (II), Advanced Materials for Emerging Technologies, 252-259 (2006)
[Proceeding]
61. T. Horita, H. Kishimoto, K. Yamaji, Y. P. Xiong, N. Sakai, M. E. Brito, H. Yokokawa, “Characterization of Oxide Scales on Fe-Cr alloy Interconnects under Dual Atmospheres and Current Flow Conditions,” The Proceedings of the Seventh European Solid Oxide Fuel Cell Forum, July (2006)
60. H. Kishimoto, K. Yamaji, T. Horita. N. Sakai, M. E. Brito, H. Yokokawa, “Direct Feeding of Liquid Hydrocarbon Fuels to Ni ScSZ Anode,” The Proceedings of the Seventh European Solid Oxide Fuel Cell Forum, July (2006)
59. N. Sakai, K, Yamaji, T. Horita, H. Yokokawa, T. Uehara, A. Toji, K. Ogasawara, H. Kameda, Y. Matsuzaki, T. Sakurai, “Chemical Stability of Fe-22Cr Ferritic Alloy Interconnect in a SOFC Operation Condition,” The Proceedings of the Seventh European Solid Oxide Fuel Cell Forum, July (2006)
58. M. Sase, F. Hermes, K. Yashiro, T. Otake, A. Kaimai, T. Kawada. J. Mizusaki, N. Sakai, K. Yamaji, T. Horita, H. Yokokawa, “Fast 18O Incorporation Paths along the Hetero Phase Boundary with (La,Sr)CoO3 / (La,Sr)2CoO4,” The Proceedings of the Seventh European Solid Oxide Fuel Cell Forum, July (2006)
57. T. Horita, H. Kishimoto, K. Yamaji, N. Sakai, Y.P. Xiong, M. E. Brito, H. Yokokawa, “Electrochemical Active Parts at Electrode/ Electrolyte Interfaces for Solid Oxide Fuel Cells(SOFCs) by Isotope Labeling-SIMS Analysis,” Advanced in Science and Technology, June 2006, Vol. 45, pp. 1857-1863, (2006)
56. Teruhisa Horita, Haruo Kishimoto, Katsuhiko Yamaji, Natsuko Sakai, Yue-ping Xiong, Manuel E. Brito, Harumi Yokokawa, “Diffusion of Oxygen at Ceramic Interfaces for High Temperature Solid Oxide Fuel Cells, Defect and Diffusion Forum 242-244, 129-142 (2005)
doi:10.4028/www.scientific.net/DDF.242-244.129
55. Tatsuya Kawada, Maya Sase, Keiji Yashiro, Atsushi Kaimai, Junichiro Mizusaki, Katsuhiko Yamaji, Teruhisa Horita, Natsuko Sakai and Harumi Yokokawa, “Visualization of Oxygen Exchange Reaction Sites on Oxides by Isotope Exchange / SIMS Imaging Technique,” The 3rd International Symposium on Mechanical Science based on Nanotechology, (2005)
54. N. Sakai, K. Yamaji, H. Kishimoto, T. Horita, Y. P. Xiong, M. E. Brito, H. Yokokawa, Y. Uchimoto, “Effect of water vapor on oxygen exchange reactions at the interface of solid electrolyte/electrode interface,” Proceedings of the 26th Risoe International Symposium on Materials Science, Roskilde, Denmark, September, pp.317-322 (2005)
[Proceeding]
53. K. Yamaji, Y. P. Xiong, H. Kishimoto, T. Horita, N. Sakai, M. E. Brito, H. Yokokawa, ”Electronic Conductivity of Doped-Lanthanum Gallate Electrolytes,” in Proc. 9th Asian Conference on Solid State Ionics the Science and Technology of Ions in Motion, ed. B. V. R. Chowdari, H.-L. Yoo, G. M. Choi, J. -H. Lee, World Scientific, Singapore, pp.253-260, (2004)
52. Natsuko Sakai, Teruhisa Horita, Yue Ping Xiong, Katsuhiko Yamaji, Haruo Kishimoto, Manuel E. Brito, Harumi Yokokawa, Toshio Maruyama, “Mass Transport in Manganese-Chromium-Iron-Oxides as a Main Compound in Oxide Scales on Alloy Interconnects,” in Proc. 9th Asian Conference on Solid State Ionics the Science and Technology of Ions in Motion, ed. B. V. R. Chowdari, H.-L. Yoo, G. M. Choi, J. -H. Lee, World Scientific, Singapore, pp.163-170, (2004)
51. T. Horita, Y. P. Xiong, K. Yamaji, H. Kishimoto, N. Sakai, M. E. Brito and H. Yokokawa, “Oxide Scale Formation of Fe-Cr Based Alloys under Current Flow for SOFC Interconnects,” in Proceedings of 6th European Solid Oxide Fuel Cell Forum,” ed. M. Mogensen, European Fuel Cell Forum, Oberrohrdorf, Switzerland, pp.1654-1661, (2004)
50. N. Sakai, T. Horita, Y. P. Xiong, K. Yamaji, H. Kishimoto, M. E. Brito, H. Yokokawa, and T. Maruyama, “Manganese-Chromium-Iron-Oxide in Oxide Scale of Alloy Interconnects,” in Proceedings of 6th European Solid Oxide Fuel Cell Forum,” ed. M. Mogensen, European Fuel Cell Forum, Oberrohrdorf, Switzerland, pp.1646-1653, (2004)
49. H. Kameda, K. Ogasawara, Y. Baba, Y. Matsuzaki, T. Sakurai, T. Horita, N. Sakai, H. Yokokawa, A. Toji, and T. Uehara, “Analysis of Metallic Interconnectors for SOFC after Durability Test Operation,” in Proceedings of 6th European Solid Oxide Fuel Cell Forum,” ed. M. Mogensen, European Fuel Cell Forum, Oberrohrdorf, Switzerland, pp.1628-1637, (2004)
48. H. Kishimoto, T. Horita, K. Yamaji, Y.P. Xiong, N. Sakai, M. E. Brito, and H. Yokokawa, “Applicability and Problems of Direct Feeding of Liquid Hydrocarbon Fuels to Ni-ScSZ Anode,” in Proceedings of 6th European Solid Oxide Fuel Cell Forum,” ed. M. Mogensen, European Fuel Cell Forum, Oberrohrdorf, Switzerland, pp.1560-1569, (2004)
47. K. Yamaji, Y. P. Xiong, H. Kishimoto, T. Horita, N. Sakai, M. E. Brito, and H. Yokokawa, “Utilization of a Scandia-Stabilized Zirconia Electrolyte for Direct Methane SOFCs,” in Proceedings of 6th European Solid Oxide Fuel Cell Forum,” ed. M. Mogensen, European Fuel Cell Forum, Oberrohrdorf, Switzerland, pp.418-427, (2004)
46. H. Yokokawa, N. Sakai, T. Horita, K. Yamaji, Y.P. Xiong, “Thermodynamic Correlation between Proton Solubility and Hole Conductivity in Ceria-Based Fluorite Oxides,” CIMTEC 2002-3rd Forum on New Materials 2nd International Conference on “Mass and Charge Transport in Inorganic Materials,” eds. P. Vincenzini, V. Buscsaglia, pp.249-256, Techna Srl, (2003)
45. Shigeru Inami, Shu Yamaguchi, Harumi Yokokawa, Natsuko Sakai, Teruhisa Horita, and Katsuhiko Yamaji, “Water Solubility in Ceria and Zirconia Doped with Rare Earth Oxides,” in Solid State Ionics: Trends in the New Millennium, pp.529-536, ed. B. V. R. Chowdari et al., World Scientific Publishing Co. (2002)
doi:10.1142/9789812776259_0061
44.  Teruhisa Horita, Yueping Xiong, Katsuhiko Yamaji, Natsuko Sakai, Harumi Yokokawa, “Stability of Fe-Cr Based Alloys in H2-H2O Atmosphere for SOFC Interconnector,” Proc. 5th European Solid Oxide Fuel Cell Forum, ed. J. Huijsmans, European Fuel Cells Forum, Oberrohrdorf, pp.401-408, (2002)
[Proceeding]
43. K. Yamaji, H. Negishi, T. Horita, N. Sakai, Y.-P. Xiong, H. Yokokawa, “Fabrication of Anode-Supported electrolytes by EPD Techniques,” Proc. 5th European Solid Oxide Fuel Cell Forum, ed. J. Huijsmans, European Fuel Cells Forum, Oberrohrdorf, pp.140-147, (2002)
42. Rak-Hyun Song, Keun-Suk Song, Jong-Hee Kim, Dong Ryul Shin and Harumi Yokokawa, “Development of Anode-Supported Tubular Solid Oxide Fuel Cell,” Proc. 5th European Solid Oxide Fuel Cell Forum, ed. J. Huijsmans, European Fuel Cells Forum, Oberrohrdorf, pp.861-867, (2002)
41. H. Yokokawa, K. Yamaji, T. Horita, N. Sakai, H. Negishi, Y. P. Xiong, T. Tsunoda, “SIMS Analyses on Mass Transfer Associated with Electrochemical Reactions in the Electrolyte/Electrode Interface Vicinity of Solid Oxide Fuel Cells,” in proc. of International Conference on Mass and Charge Transfer in Inorganic Materials. O. Vincenzini and V. Buscaglia ed., pp.1273-1276, Techna, (2000)
40. T. Horita, K. Yamaji, N. Sakai, H. Yokokawa, A. Weber, E. Ivers-Tiffee,  “Stability of La1-xSrxCoO3-d Cathodes on La0.8Sr0.2Ga0.8Mg.2O2.8 Electrolyte under Current Flow in Solid Oxide Fuel Cells,” proc. 4th European Solid Oxide Fuel Cell Forum, pp.663-672, (2000)
39. S. Miyoshi, K. Yashiro, S. Onuma, A. Kaimai, K. Kawamura, Y. Nigara, T. Kawada, J. Mizusaki, N. Sakai, and H. Yokokawa, “Solubility Limit of Alkaline Earth Oxide in Lanthanum Chromite,” proc. 4th European Solid Oxide Fuel Cell Forum, pp.881-887, (2000)
38. R.-H. Song, K.-S. Jeon, D.-R. Shin, H. Yokokawa, “Sintering and oxidation Behaviors of LaCrO3-Dispersed Cr Alloy for Metallic Interconnector of Solid Oxide Fuel Cells,” proceeding of the 8th APCChE Congress, Seoul, Korea, August 16-19, (1999)
37. H. Yokokawa, K. Yamaji, T. Horita, N. Sakai, “Thermodynamic Characterization of the Electrochemical Materials,” Solid State Ionics: Science and Technology, edited by B. V. R. Chowdari et al. World Scientific Publishing Co., pp.537-546 (1998)
36.  N. Sakai, K. Yamaji, T. Horita, M. Ishikawa, H. Yokokawa, M. Dokiya, “Determination of Tracer Diffusion Coefficient of Chromium in Lanthanum Chromites,” in proc. 3rd European Solid Oxide Fuel Cells Forum, pp.333-342, Nantes, June (1998)
35. K. Yamaji, T. Horita, N. Sakai, M. Ishikawa, H. Yokokawa, “Reactions Between (La0.9Sr0.1)(Ga0.8Mg0.2)O2.85 and Platinum,” in proc. 3rd European Solid Oxide Fuel Cells Forum, pp.373-383, Nantes, June (1998)
34. N. Sakai, T. Horita, K. Yamaji, H. Yokokawa, M. Dokiya and T. Kawada, “Oxygen Permeation through (La,Ca)CrO3 Interconnects,” in proceedings of the IEA 10th SOFC Workshop : “Materials and Processes,” Annex VII : SOFC under Real Operating Conditions, pp.178-181, Les Diablerets, Switzerland, January 28-31, (1997)
33. H. Yokokawa, K. Yamaji, T. Horita, N. Sakai, M. Ishikawa, M. Dokiya, and T. Kawada, “Materials Behavior under an Oxygen Potential Gradient at High Current Densities,” in proceedings of the IEA 10th SOFC Workshop : “Materials and Processes,” Annex VII : SOFC under Real Operating Conditions, pp.68-83, Les Diablerets, Switzerland, January 28-31, (1997)
32. T. Kawada, T. Horita, N. Sakai, H. Yokokawa, M. Dokiya, J. Mizusaki, “Visualization of Electrochemical Reaction Sites on Solid Oxide Electrolytes,” proceeding of the 2nd International Meetings of Pacific Ceramic Societies,Cairns, Australia, 15-17 July (1996)
31. T. Horita, N. Sakai, H. Yokokawa, and M. Dokiya, “Ceria-Zirconia Electrolyte Solid Oxide Fuel Cell,” proceeding of the 2nd International Meetings of Pacific Ceramic Societies, Cairns, Australia, 15-17 July (1996)
30. T. Horita, N. Sakai, H. Yokokawa, M. Dokiya and T. Kawada, “Electrochemical Reaction on Ceria Coated Zirconia in H2-H2O atmosphere,” Proceedings of the 17th RISO International Symposium on Materials Science: High Temperature Electrochemistry: Ceramics and Metals edited by F. W. Poulsen et al., RISO National Laboratory, pp.281-286, Roskilde, Denmark, (1996)
[Proceeding]
29. N. Sakai, T. Horita, H. Yokokawa, M. Dokiya, T. Kawada, K. Hiwatari, A. Ueno, M. Aizawa, “Electrochemical Oxygen Permeation through Lanthanum Chromite Interconnects,” proc. 2nd European Solid Oxide Fuel Cells, Oslo, Norway, ed. B. Thorstensen, Vol. 2,531-541, 6-10 may (1996)
28. H. Ito, T. Yamamoto, M. Mori, N. Mori, T. Watanabe, T. Horita, N. Sakai, H. Yokokawa, M. Dokiya, “Anode Materials; Properties of Ni-YSZ Cermets with New Conceptual Microstructure,” proc. 2nd European Solid Oxide Fuel Cells, Oslo, Norway, ed. B. Thorstensen, Vol. 2. 453-463, 6-10 may (1996)
27. H. Yokokawa, N. Sakai, T. Horita, M. Dokiya, “Thermodynamic Considerations on Mass Transfer along/across the Interfaces,” pp.401-410, Proc. Interntl. Symp. Material Chemistry In Nuclear Environment, Tsukuba, March 14-15, (1996)
26. T. Horita, N. Sakai, T. Kawada, H. Yokokawa and M. Dokiya, "Investigations of Anode and Electrolyte for Methane Partial Oxidation in Solid Oxide Fuel Cells," in Proc. First European Solid Oxide Fuel Cell Forum,  ed. U. Bossel, Lucerne, Switzerland, pp.227-236, 3-7 October (1994)
25. H. Yokokawa, T. Horita, N. Sakai, T. Kawada and M. Dokiya, "Thermodynamic Considerations on Plausible Effect of Oxygen Flow on Morphology of Reaction Products at the YSZ/Lanthanum Manganite  Interface in Solid Oxide Fuel Cells," in Proc. First European Solid Oxide Fuel Cell Forum, ed. U. Bossel, Lucerne, Switzerland, pp.425-434, 3-7 October (1994)
24. H. Yokokawa, T. Horita, N. Sakai, T. Kawada, and M. Dokiya, "Thermodynamic Analysis on Chemical Stabilities among High Temperature Fuel Cell Components," pp.473-478 in High temperature Electrochemical Behaviour of Fast Ion and Mixed Conductors, proc. 14th Riso International Symposium on Materials Science, Riso National Laboratory, Roskilde, Denmark, (1993)
23. M. Dokiya, T. Horita, N. Sakai, T. Kawada, H. Yokokawa, B. A. van Hassel and C. S. Montross, "Interconnector Chemistry," p 3341 in proc. the 14th Riso International Symposium on Materials Science, Riso National Laboratory, Roskilde, Denmark, (1993)
22. Harumi Yokokawa, Natsuko Sakai, Tatsuya Kawada, Masayuki Dokiya, "Phase Diagram Calculations for ZrO2 Based Ceramics: Thermodynamic Regularities in Zirconate Formation and Solubilities of Transition Metal Oxides," pp.59-68, in Science and Technology of Zirconia V, Technomic Publishing Comp., Lancaster, Pennsylvania, (1993)
[Proceeding]
21. N. Sakai, T. Kawada, H. Yokokawa, M. Dokiya, "Chemical Stability of (La,Ca)CrO3 Interconnects of Solid Oxide Fuel Cell," pp.764-775, in Science and Technology of Zirconia V, Technomic Publishing Comp., Lancaster, Pennsylvania, (1993)
20. H. Yokokawa, N. Sakai, T. Kawada, M. Dokiya, "Chemical Thermodynamic Stability of the Interface," pp.752-763, in Science and Technology of Zirconia V, ed. by S. P. S. Badwal, M. J. Bannister, R. H. J. Hannink, Technomic Publishing Comp. Lancaster, (1993)
19. H. Yokokawa, N. Sakai, T. Kawada, M. Dokiya, "A Simple Chemical Thermodynamic Approach of Analyzing Chemical Stabilities of Various Materials Under Chemical Potential Gradients," Proc. International Symposium on Materials Chemistry in Nuclear Environment, Tsukuba, pp.547-554 March (1992)
18. N. Sakai, T. Kawada, H. Yokokawa, M. Dokiya, "Air Sinterable (La,Ca)CrO3 for SOFC Interconnectors: Some Problems in Powder Preparation," Proc. the International Fuel Cell Conference, Makuhari, New Energy and Industrial Technology Development Organization, pp.365-368, February (1992)
17. M. Dokiya, N. Sakai, T. Kawada, and H. Yokokawa, "Train Cell Stack by Wet Fabrication Process," Proc. the International Fuel Cell Conference, Makuhari, New Energy and Industrial Technology Development Organization(NEDO), pp.309-312, February (1992)
16. T. Kawada, I. Anzai, N. Sakai, H. Yokokawa and M. Dokiya, "Polarization of a Ni-YSZ Cermet Anode with H2, CO, and CH4 Fuels in a Solid Fuel Cell," in 'High Temperature Electrode Materials and Characterization,' ed. by D. D. MacDonald and A. C. Kahndkar, The Electrochemical Society, pp.165-174 (1991)
15. H. Yokokawa, N. Sakai, T. Kawada, and M. Dokiya, "Chemical Stability of Interface between Air Electrode and Electrolyte in Solid Oxide Fuel Cell," 1990 Fuel Cell Seminar, Phoenix, Arizona, pp. 156-159, Courtesy Associates, Inc., Washington, (1990)
14. H. Yokokawa, N. Sakai, T. Kawada, and M. Dokiya, "Thermodynamic Analysis on Reactions between Molten Carbonates and Alloys," 1990 Fuel Cell Seminar, Phoenix, Arizona, pp.152-155, Courtesy Associates, Inc., Washington, (1990)
13. N. Sakai, T. Kawada, H. Yokokawa, M. Dokiya, Y. Takahashi, "Thermal Diffusivity of Calcium Doped Lanthanum Chromites,"  Proc. 11th  Japan Symposium on Thermophysical Properties 1990, 207, (1990)
12. T. Iwata,  N. Sakai, T. Kawada, H. Yokokawa, and M. Dokiya, "Single Cell Performance  of  Planar Solid Oxide Fuel Cells,"  Proc. 25th Intersociety Energy Conversion Engineering Conference, Vol. 3, pp.235-239, American Institute of Chemical Engineers, New York, (1990)
11. H. Yokokawa, N. Sakai, T. Kawada, and M. Dokiya, "Stability and Reaction of Perovskite Materials in SOFCs,"  Proc. international conference on SOFC Nagoya, Science House Co. Ltd, Tokyo, pp. 118-134, (1990)
10. M. Dokiya, N. Sakai, T. Kawada, H. Yokokawa, T. Iwata, M. Mori, "Fabrication  of  a  planar solid oxide fuel cell,"  Proc.  24th  Intersociety Energy  Conversion Engineering Conference, Vol. 3, pp. 1547-1551,  The Institute of Electrical and Electronics Engineers, (1989)
9. H. Yokokawa, "CTC: Chemical Thermodynamic Computation System", The Seventh Japan Symposium on Thermophysical Properties 1986, p 55 (1986)
8.  H. Yokokawa, S. Yamauchi, S. Fujieda, "MALT: Materials-Oriented Little Thermodynamic Database", The Seventh Japan Symposium on Thermophysical Properties 1986, p 53, (1986)
7. M. Dokiya, M. Fujishige, H. Yokokawa, S. Ujiie, A. Motoe, T. Hirose, K. Amano, "Blast Furnace Process for Aluminum, Calcium Carbide, Calcium Hydride, and Titanium", in 'Light Metals 1986', ed. by R. E. Miller, The Metal. Soc. AIME, pp.241-246, Warrendale, (1986)
6. H. Yokokawa, M. Fujishige, S. Ujiie, T. Kameyama, M. Dokiya, "Chemical Thermodynamic Considerations on Aluminum Blast Furnace", in 'Light Metals 1985', ed. by H. O. Bohner, The Metal. Soc. AIME, pp.507-517, Warrendale, (1985)
5. M. Dokiya, M. Fujishige, T. Kameyama, H. Yokokawa, S. Ujiie, K. Fukuda, A. Motoe, "Aluminum Blast Furnace", in 'Light Metals 1983', ed. by E. M. Adkins, The Metal. Soc. AIME, pp.651-670, Warrendale, (1983)
4. T. Kameyama, K. Fukuda, M. Fujishige, H. Yokokawa, M. Dokiya, "Production of Hydrogen from Hydrogen Sulfide by means of Selective Diffusion Membranes", in 'Hydrogen Energy Progress,' ed. by T. N. Vezirogel et al., Vol. 2, pp.569-579, Pergamon, (1980)
3. M. Dokiya, M. Fujishige, T. Kameyama, K. Fukuda, H. Yokokawa, "Thermochemical Hydrogen Production by SO2-CH3OH-I2 Cycle", in "Hydrogen Energy Progress", ed. by T. N. Vezirogel et al., Vol. 1, pp.373-387, Pergamon, (1980)
2. Y. Takahashi, T. Azumi, H, Kadokura, H. Sekine, H. Yokokawa "Laser Flash Calorimetry : Heat Capacity of Aluminum and Gallium", in 'Thermal Analysis - Proceeding of 5th International Conference of Thermal Analysis', Vol.1, pp.152-155 (1977)
1. H. Yokokawa, Y. Takahashi, T. Mukaibo,  "Heat Capacity of Uranium Phosphide from 80 to 1080 K and Electronic Contribution", in 'Thermodynamics of Nuclear Materials 1974', Vol. 2, IAEA, pp. 419-430, (1975)


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