Progress and prospects in direct ammonia solid oxide fuel cells

Cover Page

Cite item

Full Text

Abstract

Hydrogen has emerged as a major energy vector in the past few years; however, its storage and long-distance transportation remain the key challenges to its widespread use. Ammonia is considered to be a potential medium for hydrogen carrier and storage. Indeed, ammonia is more energy dense than hydrogen, easier to transport, and allows for a CO2-free alternative fuel that could be used in a variety of power generations system. In this regard, solid oxide fuel cell (SOFC) technology stands out as the most promising one that directly converts ammonia into electricity with high efficiency. As SOFCs operate at high temperatures (>600°C), they do not require additional energy for external reforming and cracking of ammonia. In this paper, we critically review the experimental demonstration, major achievements, progress, and prospects in direct NH3-fueled SOFCs. Bibliography — 147 references.

About the authors

Ali Muqaddas Mehdi

Korea Institute of Energy Research; Korea University of Science and Technology

ORCID iD: 0000-0002-5786-6337

Amjad Hussain

Korea Institute of Energy Research; Korea University of Science and Technology

Muhammad Zubair Khan

Muhammad Bilal Hanif

Comenius University

ORCID iD: 0000-0002-0321-9353

Rak-Hyun Song

Korea Institute of Energy Research; Korea University of Science and Technology

ORCID iD: 0000-0001-6685-0065

Wajahat Waheed Kazmi

Korea Institute of Energy Research; Korea University of Science and Technology

Muhammad Measam Ali

Korea Institute of Energy Research; Korea University of Science and Technology

Sajid Rauf

College of Mechatronics and Control Engineering, Shenzhen University

Yizhou Zhang

Nanjing University of Information Science and Technology

Mutawara Mahmood Baig

Nanjing University of Information Science and Technology

Dmitry Andreevich Medvedev

Institute of High-Temperature Electrochemistry, RAS; Hydrogen Energy Research Institute

Email: dmitrymedv@mail.ru
Doctor of chemical sciences

Martin Motola

Comenius University

ORCID iD: 0000-0001-7394-9944

References

  1. S.Rauf, M.B.Hanif, N.Mushtaq, Z.Tayyab, N.Ali,Y.M.Shah W.Xu. ACS Appl. Mater. Interfaces., 14, 43067 (2022)
  2. M.Y.Shah, S.Rauf, N.Mushtaq, B.Zhu, Z.Tayyab, M.Yousaf, M.I.Asghar. ACS Appl. Energy Mater., 4, 5798 (2021)
  3. H.Canton. In International Energy Agency - IEA: The Europa Directory of International Organizations Routledge 2021. (Eds Europa Publications). Routledge, London, 2021. P. 684
  4. https://www.eia.gov/todayinenergy/detail.php?id=41433
  5. C.C.Elam, C.E.G.Padró, G.Sandrock, A.Luzzi, P.Lindblad, E.F.Hagen. Int. J. Hydrogen Energy, 28, 601 (2003)
  6. I.Shaheen, I.Hussain, T.Zahra, M.S.Javed, S.S.A.Shah, K.Khan, K.Zhang. J. Energy Storage, 72, 108719 (2023)
  7. Z.Wang, F.Zhao, Y.Ma, R.Xia, F.Han. Aerospace, 10, 397 (2023)
  8. K.Aleklett, M.Höök, K.Jakobsson, M.Lardelli, S.Snowden, B.Söderbergh. Energy Policy, 38, 1398 (2010)
  9. M.B.Hanif, M.Motola, S.Qayyum, S.Rauf, A.khalid, C.J.Li, C.X.Li. Chem. Eng. J., 428, 132603 (2022)
  10. T.Capurso, M.Stefanizzi, M.Torresi, S.M.Camporeale. Energy Convers. Manage., 251 114898 (2022)
  11. M.B.Hanif, S.Rauf, Z.U.Abadeen, K.Khan, Z.Tayyab, S.Qayyum, M.Mosiałek, Z.Shao, C.X.Li, M.Motola. Matter, 6, 1782 (2023)
  12. S.Rauf, M.B.Hanif, F.Wali, Z.Tayyab, B.Zhu, N.Mushtaq, W.Xu. Energy Environ. Mater., e12606 (2023) (in the press)
  13. X.L.Lin, Z.U.D.Babar, Y.Gao, J.T.Gao, C.X.Li. ACS Appl. Energy Mater., 6, 4833 (2023)
  14. M.Mosiałek, M.B.Hanif, T.Šalkus, A.Kežionis, E.Kazakevičius, A.F.Orliukas, M.Motola. Ceram. Int., 49, 15276 (2023)
  15. M.T.Mehran, M.Z.Khan, R.H.Song, T.H.Lim, M.Naqvi, R.Raza, M.B.Hanif. Appl. Energy, 352, 121864 (2023)
  16. K.Khan, S.Qayyum, M.B.Hanif, S.Rauf, A.Sultan, M.Mosiałek, B.Lin. Ceram. Int., 49, 16826 (2023)
  17. N.Tarasova, M.B.Hanif, N.K.Janjua, S.Anwar, M.Motola, D.Medvedev. Int. J. Hydrogen Energy, (2023) (in the press); http://dx.doi.org/10.1016/j.ijhydene.2023.08.074
  18. X.Ge, Z.Li , L.Yin. Nano Energy, 32, 117 (2017)
  19. B.Dunn, H.Kamath, J.M.Science, 334, 928 (1979)
  20. J.G.Kim, B.Son. J. Power Sources, 282, 299 (2015)
  21. H.Tsai, W.Nie, J.C.Blancon, C.C.Stoumpos, R.Asadpour, B.Harutyunyan, A.J.Neukirch, R.Verduzco, J.J.Crochet, S.Tretiak, L.Pedesseau, J.Even, M.A.Alam, G.Gupta, J.Lou, P.M.Ajayan, M.J.Bedzyk, M.G.Kanatzidis, A.D.Mohite. Nature (London), 536, 312 (2016)
  22. M.I.H. Ansari, A.Qurashi, M.K.Nazeeruddin. J. Photochem. Photobiol. C: Photochem. Rev., 35, 1 (2018)
  23. A.V.Pradeep, S V.S.Prasad, L.V.Suryam, P.P.Kumari. Mater. Today Proc., 19, 556 (2019)
  24. M.R.Islam, S.Mekhilef, R.Saidur. Renew. Sustain. Energy Rev., 21, 456 (2013)
  25. P.Tchakoua, R.Wamkeue, T.A.Tameghe, G.Ekemb. In Proceedings of World Congress on Computer and Information Technology (WCCIT). Sousse, Tunisia, 2013. P. 1; http://dx.doi.org/10.1109/WCCIT.2013.6618706
  26. E.J.Novaes Menezes, A.M.Araújo, N.S.B.D.Silva. J. Clean. Prod., 174, 945 (2018)
  27. R.S.Amano. J. Energy Resour. Technol., 139, 050801 (2017)
  28. M.L.Hossain, A.Abu-Siada, S.M.Muyeen. Energies, 11, 1309 (2018)
  29. Z.Lu, H.Zhang, L.Duan, Z.Wang, Q.Wang, A.Baccioli, U.Desideri. Int. J. Hydrogen Energy, 48, 18064 (2023)
  30. W.Zhang, J.Wei, F.Yin, C.Sun. Mater. Chem. Front., 7, 1943 (2023)
  31. M.Z.Khan, A.Iltaf, H.A.Ishfaq, F.N.Khan, W.H.Tanveer, R.H.Song, M.T.Mehran, M.Saleem, A.Hussain, Z.Masaud. J. Asian Ceram. Soc., 9, 745 (2021)
  32. A.Hussain, R.H,Song, T.KIM, A.M.Mehdi, J.Shin, B.S,Kwon, M.M.Ali, D.W.Joh, M.Z.Khan, J.E.Hong, S.Lee, T.H.Lim. ECS Trans., 111, 1535 (2023)
  33. A.Hussain, M.Hassan, R.H.Song M.Z.Khan, A.M.Mehdi, H.J.Ryu, T.H.Kim, J.E.Hong, D.W.Joh, S.B.Lee, T.H.Lim, Ceram. Int., 49, 30452 (2023)
  34. M.Irshad, N.Kousar, M.B.Hanif, A.N.Tabish, A.Ghaffar, M.Rafique, M.Motola. Sustain. Energy Fuels, 6, 5384 (2022)
  35. M.Z.Khan, R.H.Song, M.T.Mehran, S.B.Lee, T.H.Lim. Ceram. Int., 47, 5839 (2021)
  36. H.Chehrmonavari, A.Kakaee, S.E.Hosseini, U.Desideri, G.Tsatsaronis, G.Floerchinger, R.Braun, A.Paykani. Renew. Sustain. Energy Rev., 171, 112982 (2023)
  37. H.A.Ishfaq, M.Z.Khan, Y.M.Shirke, S.Qamar, A.Hussain, M.T.Mehran, R.H.Song, M.Saleem. Appl. Catal. B, 323, 122178 (2023)
  38. H.A.Ishfaq, M.Z.Khan, M.T.Mehran, R.Raza, W.H.Tanveer, S.Bibi, A.Hussain, H.A.Muhammad, R.H.Song. Int. J. Hydrogen Energy, 47, 37587 (2022)
  39. M.B. Hanif, S.Rauf, M.Mosiałek, K.Khan, V.Kavaliukė, A.Kežionis, T.Šalkus, J.Gurgul, D.Medvedev, M.Zimowska, D.Madej, M.Motola. Int. J. Hydrogen Energy, (2023) (in the press)
  40. M.Z.Khan, M.T.Mehran, R.H.Song, J.W.Lee, S.B.Lee, T.H.Lim. J. Power Sources, 391, 94 (2018)
  41. B.S.Kwon, R.H.Song, D.W.Joh, T.H.Kim, A.Hussain, S.B.Lee, T.H.Lim, J.E.Hong. ECS Trans., 111, 331 (2023)
  42. A.Martínez-Amesti, A.Larrañaga, L.M.Rodríguez-Martínez, M.L.Nó, J.L.Pizarro, A.Laresgoiti, M.I.Arriortua. J. Power Sources, 192, 151 (2009)
  43. R.M.Ormerod. Chem. Soc. Rev., 32, 17 (2003)
  44. B.Timurkutluk, C.Timurkutluk, M.D.Mat, Y.Kaplan. Renew. Sustain. Energy Rev., 56, 1101(2016)
  45. Z.U.D.Babar, M.B.Hanif, J.T.Gao, C.J.Li, C.X.Li. Int. J. Hydrogen Energy, 47, 7403 (2022)
  46. M.Z.Khan, R.H.Song, A.Hussain, S.B.Lee, T.H.Lim, J.E.Hong. J. Eur. Ceram. Soc., 40, 1407 (2020)
  47. M.Z.Khan, M.T.Mehran, R.H.Song, J.W.Lee, S.B.Lee, T.H.Lim, S.J.Park. Ceram. Int., 42, 6978 (2016)
  48. M.Z.Khan, M.T.Mehran, R.H.Song, J.W.Lee, S.B.Lee, T.H.Lim. Int. J. Hydrogen Energy, 43 12346 (2018)
  49. M.B.Hanif, S.Rauf, M.Motola, Z.U.D.Babar, C.J.Li, C.X.Li. Mater. Res. Bull., 146, 111612 (2022)
  50. J.Wang, D.Yan, J.Pu, B.Chi, L.Jian. Int. J. Hydrogen Energy, 36, 7234 (2011)
  51. J.Zhu, Z.Lin. Appl. Energy, 231, 22 (2018)
  52. A,.Hussain, R.H.Song, T.H.KIM, B.S.Kwon, M.M.Ali, D.W.Joh, J.E.Hong, S.B.Lee, T.H.Lim. ECS Meet. Abstr., MA2022-02, 1770 (2022)
  53. A.M.Mehdi, A.Hussain, R.H.Song, T.H.Lim, W.W.Kazmi, H.A.Ishfaq, M.Z.Khan, S.Qamar, M.W.Syed, M.T.Mehran. RSC Adv., 13, 25029 (2023)
  54. Z.Wan, Y.Tao, J.Shao, Y.Zhang, H.You. Energy Convers. Manage., 228, 113729 (2021)
  55. T.Raza, J.Yang, R.Wang, C.Xia, R.Raza, B.Zhu, S.Yun. Chem. Eng. J., 444, 136533 (2022)
  56. S.C.Singhal. Solid State Ion., 135, 305 (2000)
  57. S.Lee, S.Lee, H.J.Kim, S.M.Choi, H.An, M.Y.Park, J.Shin, J.H.Park, J.Ahn, D.Kim, H.Ji, H.Kim, J.W.Son, J.H.Lee, B.K.Kim, H.W.Lee, J.Hong, D.Shin, K.J.Yoon. J. Mater. Chem. A, 6, 15083 (2018)
  58. J.Zhang, T.S.Fisher, P.V.Ramachandran, J.P.Gore, I.Mudawar, J. Heat Transfer, 127, 1391 (2005)
  59. A.A.Dafedar, SS.Verma, A.Yadav. In Proceedings of the International Conference on Advances in Sustainable Technologies (ICAST). Singapore, 2020. P. 29
  60. M.Z.Khan, M.T.Mehran, A.Hussain, S.-B.Lee, T.-H.Lim, R.-H.Song. ACS Appl. Mater. Interfaces, 15, 45354 (2023)
  61. L.Medard. In Gas encyclopaedia. Vol. 2. Elsevier, Amsterdam, 1976. P. 2
  62. J.Zhou, Z.Wang, M.Han, Z.Sun, K.Sun. Int. J. Hydrogen Energy, 47, 4109 (2022)
  63. V.He, M.Gaffuri, J.V. herle, J.Schiffmann. Energy Convers. Manage., 278, 116728 (2023)
  64. O.Erixno, N.A.Rahim, F.Ramadhani, N.N.Adzman. Sustain. Energy Technol. Assess., 51, 101944 (2021)
  65. C.Acar, I.Dincer. Int. J. Hydrogen Energy, 45, 3396 (2020)
  66. S.T.Le, T.N.Nguyen, S.Linforth, T.D.Ngo. Int. J. Hydrogen Energy, 48, 2861 (2023)
  67. M.Felderhoff, C.Weidenthaler, R.V.Helmolt, U.Eberle. Phys. Chem. Chem. Phys., 9, 2643 (2007)
  68. S.W.Jorgensen. Curr. Opin. Solid State Mater. Sci., 15, 39 (2011)
  69. M.Felderhoff, C.Weidenthaler, R.V.Helmolt, U.Eberle. Phys. Chem. Chem. Phys., 9, 2643 (2007)
  70. P.P.Edwards, V.L.Kuznetsov, W.I.F.David, N.P.Brandon. Energy Policy, 36, 4356 (2018)
  71. B.Tu, Y.Yin, F.Zhang, X.Su, X.Lyu, M.Cheng, Int. J. Hydrogen Energy, 45, 27587 (2020)
  72. A.Hagen, G.B.Johnson, P.Hjalmarsson. J. Power Sources, 272, 776 (2014)
  73. W.Zhang, Y.H.Hu. Energy Sci. Eng., 11, 3276 (2023)
  74. M.Ni, M.K.H.Leung, D.Y.C.Leung, Int. J. Energy Res., 33, 943 (2009)
  75. X.Montero, F.Tietz, D.Stöver, M.Cassir, I.Villarreal. J. Power Sources, 188, 148 (2009)
  76. T.Okanishi, K.Okura, A.Srifa, H.Muroyama, T.Matsui, M.Kishimoto, M.Saito, H.Iwai, H.Yoshida, M.Koide, T.H.Iwai, S,Suzuki, Y.Takahashi, T.Horiuchi, H.Yamasaki, S.Matsumoto, S.Yumoto, H.Kubo, J.Kawahara, A.Okabe, Y.Kikkawa, T.Isomura K.Eguchi. Fuel Cells, 17, 383 (2017)
  77. Q.Ma, R.Peng,Y.Lin, J.Gao, G.Meng. J. Power Sources, 161, 95 (2006)
  78. S.S.Rathore, S.Biswas, D.Fini, A.P.Kulkarni, S.Giddey. Int. J. Hydrogen Energy, 46, 35365 (2021)
  79. A.Valera-Medina, F.Amer-Hatem, A.K.Azad, I.C.Dedoussi, M.D.Joanno, R.X.Fernandes, P.Glarborg, H.Hashemi, X.He. Energy Fuels, 35, 6964 (2021)
  80. L.Lin, Y.Tian, W.Su, Y.Luo, C.Chen, L.Jiang. Sustain. Energy Fuels, 4, 3006 (2020)
  81. R.Nasharuddin, M.Zhu, Z.Zhang, D.Zhang. Int. J. Hydrogen Energy, 44, 14445 (2019)
  82. M.Minutillo, A.Perna, P.D.Trolio, S.Micco, E.Jannelli. Int. J. Hydrogen Energy, 46, 10059 (2021)
  83. S.Giddey, S.P.S.Badwal, A.Kulkarni. Int. J. Hydrogen Energy, 38, 14576 (2013)
  84. S.Giddey, S.P.S.Badwal, C.Munnings, M.Dolan. ACS Sustain. Chem. Eng., 5, 10231 (2017)
  85. W.H.Avery. Int. J. Hydrogen Energy, 13, 761 (1988)
  86. R.Lan, J.T.S.Irvine, S.Tao. Int. J. Hydrogen Energy, 37, 1482 (2012)
  87. G.Thomas, G.Parks. In Potential roles of ammonia in a hydrogen economy: a study of issues related to the use ammonia for on-board vehicular hydrogen storage: US Department of Energy, 2006. P. 23
  88. S.Mazzone. Doctoral Thesis in School of Engineering, The University of Edinburgh, Scotland, 2022
  89. Z.Wan, Y.Tao, J.Shao, Y.Zhang, H.You. Energy Convers. Manage., 228, 113729 (2021)
  90. Y.Kalinci, I.Dincer. Int. J. Hydrogen Energy, 43, 5795 (2018)
  91. M.Boudart, G.Djéga-Mariadassou. In Kinetics of Heterogeneous Catalytic Reactions. Princeton University Press, 1984. P. 240
  92. S.Giddey, S.P.S.Badwal, A.Kulkarni. Int. J. Hydrogen Energy, 38, 14576 (2013)
  93. A.Jain, S.Agarwal, T.Ichikawa. Hydrogen Storage Sustain., 225, (2021)
  94. L.Yu, F.Abild-Pedersen. ACS Catal., 7, 864 (2017)
  95. J.Cha, Y.Park, B.Brigljević, B.Lee, D.Lim, T.Lee, H.Jeong, Y.Kim, H.Sohn, H.Mikulčić. Renew. Sustain. Energy Rev., 152, 111562 (2021)
  96. M.Ravi, J.W.Makepeace. Chem. Sci., 13, 890 (2022)
  97. Y.Yao, Q.Dong, A.Brozena, J.Luo, J.Miao, M.Chi, C.Wang, I.G.Kevrekidis, Z.J.Ren, J.Greeley, G.Wang, A.Anapolsky, L.Hu. Science, 376, 3103 (1979)
  98. J.Kim, S.U.Rehman, M.I.Lee, A.Hussain, Y.Noh, J. Oh, W.Ku, N.E.Kwak, D.H.Kim, H.Hwang, H.S.Yoon, S.Park, S.B.Lee, J.H.Hwang. J. Mater. Chem. A, 11, 9474 (2023)
  99. A.Hussain, M.Z.Khan, R.HSong, R.H.Hong, J.E.Lee, T.H.Lim. ECS Trans., 91, 373 (2019)
  100. S.Ahmed, W.W.Kazmi, A.Hussain, M.Z.Khan, S.Bibi, M.Saleem, R.H.Song, Z.Sajid, A.Ullah, M.K.Khan. J. Korean Ceram. Soc., 60, 272 (2022)
  101. US Patent 17/563,945 (2022)
  102. Y.Yi, J.Chen, M.Xu, G.Yang, R.Ran, W.Zhou, W.Wang, Z.Shao. Catalysts, 13, 996 (2023)
  103. M.Irshad, M.K.Baber, M.B.Hanif, M.Asad, A.Ghaffar, M.Rafique, I.Hussain, M.M.Al-Anazy, H.Makarov, B.D.Napruszewska, M.Mosiałek, M.Motola. Ceram. Int. (2023) (in the press)
  104. M.B.Hanif, S.Rauf, S.Qayyum, M.Šihor, M.Motola. Sustain. Energy Fuels, 6, 3465 (2022)
  105. B.Wang, T.Li, F.Gong, M.H.D.Othman, R.Xiao. Fuel Process. Technol., 235, 107380 (2022)
  106. E.J.Mittemeijer, M.A.J.Somers. Surf. Eng., 13, 483 (1997)
  107. N.M.Le, C.Schimpf, H.Biermann, A.Dalke. Metall. Mater. Trans. B, 52, 414 (2021)
  108. P.Schaaf. Prog. Mater. Sci., 47, 1 (2002)
  109. A.Leineweber, F.Lienert, S.L.Shang, Z.K.Liu, E.J.Mittemeijer. J. Mater. Res., 27, 1531 (2012)
  110. V.Singh, H.Muroyama, T.Matsui, K.Eguchi. ECS Trans., 78, 2527 (2017)
  111. Z.Wan, Y.Tao, J.Shao, Y.Zhang, H.You. Energy Convers. Manage., 228, 113729 (2021)
  112. M.Hashinokuchi, M.Zhang, T.Doi, M.Inaba. Solid State Ion., 319, 180 (2018)
  113. R.D.Farr, C.G.Vayenas. J. Electrochem. Soc., 127, 1478 (1980)
  114. A.Wojcik, H.Middleton, I.Damopoulos. J. Power Sources, 118, 342 (2003)
  115. K.Miyazaki, T.Okanishi, H.Muroyama, T.Matsui, K.Eguchi. J. Power Sources, 365, 148 (2017)
  116. G.Cinti, U.Desideri, D.Penchini, G.Discepoli. Fuel Cells, 14, 221 (2014)
  117. S.S.Shy, S.C.Hsieh, H.Y.Chang. J. Power Sources, 396, 80 (2018)
  118. Y.Aoki, T.Yamaguchi, S.Kobayashi, D.Kowalski, C.Zhu, H.Habazaki. Global Challenges, 2, 1700088 (2018)
  119. C.Duan, R.J.Kee, H.Zhu, C.Karakaya, Y.Chen, S.Ricote, A.Jarry, E.J.Crumlin, D.Hook, R.Braun, N.P.Sullivan R.O’Hayre. Nature (London), 557, 217 (2018)
  120. B.Stoeckl, V.Subotić, M.Preininger, M.Schwaiger, N.Evic, H.Schroettner, C.Hochenauer. Electrochim. Acta, 298, 874 (2019)
  121. Y.Song, H.Li, M.Xu, G.Yang, W.Wang, R.Ran, W.Zhou, Z.Shao. Small, 16, 2001859 (2020)
  122. K.Xu, F.Zhu, M.Hou, C.Li, H.Zhang, Y.Chen. Nano. Res., 16, 2454, (2023)
  123. Y.Itagaki, J.Cui, N.Ito, H.Aono, H.Yahiro. J. Ceram. Soc. Jpn. 126, 870 (2018)
  124. K.M.Nowicki, G.Carins, J.Bayne, C.Tupberg, J.T.S.Irvine, J.T.S. J. Mater. Chem. A., 11, 352 (2023)
  125. N.Jantakananuruk, J.R.Page, C.D.Armstrong, J.Persky, R.Datta, A.R.Teixeira. J. Power Sources, 548, 231999 (2022)
  126. A.C.Chien, W.Y.Chen, M.S.Zheng. J. Electrochem. Soc., 170, 044505 (2023)
  127. X.Xiong, J.Yu, X.Huang, D.Zou, Y.Song, M.Xu, R.Ran, W.Wang, W.Zhou, Z.Shao. J. Mater. Sci. Technol., 125, 51 (2022)
  128. Y.Pan, H.Zhang, K.Xu, Y.Zhou, B.Zhao, W.Yuan, K.Sasaki, Y.Choi, Y.Chen, M.Liu. Appl. Catal. B, 306, 121071 (2022)
  129. H.Zhang, Y.Zhou, K.Pei, Y.Pan, K.Xu, Y.Ding, B.Zhao, K.Sasaki, Y.Choi, Y.Chen. Energy Environ. Sci., 15, 287 (2022)
  130. F.He, Q.Gao, Z.Liu, M.Yang, R.Ran, G.Yang, W.Wang, W.Zhou, Z.Shao. Adv. Energy Mater., 11, 2003916 (2021)
  131. L.Zhu, C.Cadigan, C.Duan, J.Huang, L.Bian, L.Le, C.H.Hernandez, V.Avance, R.O’Hayre, N.P.Sulliva. Commun. Chem., 4, 121 (2021)
  132. Y.Wang, Y.Gu, H.Zhang, J.Yang, J.Wang, W.Guan, J.Chen, B.Chi, L.Jia, H.Muroyama. Appl. Energy, 270, 115185 (2020)
  133. Y.Wang, J.Yang, J.Wang, W.Guan, B.Chi, L.Jia, J.Chen, H.Muroyama, T.Matsui, K.Eguchi. J. Electrochem. Soc., 167, 64501 (2020)
  134. K.Miyazaki, H.Muroyama, T.Matsui, K.Eguchi. Sustain. Energy Fuels, 4, 5238 (2020)
  135. J.Yang, A.F.S.Molouk, T.Okanishi, H.Muroyama, T.Matsui, K.Eguchi. ACS Appl. Mater. Interfaces, 7, 28701 (2015)
  136. Y.Lin, R.Ran, Y.Guo, W.Zhou, R.Cai, J.Wang, Z.Shao. Int. J. Hydrogen Energy, 35, 2637 (2010)
  137. Q.Ma, J.Ma, S.Zhou, R.Yan, J.Gao, G.Meng. J. Power Sources, 164, 86 (2007)
  138. K.Xie, Q.Ma, B.Lin, Y.Jiang, J.Gao, X.Liu, G.Meng. J. Power Sources, 170, 38 (2007)
  139. G.Meng, C.Jiang, J.Ma, Q.Ma, X.Liu. J. Power Sources, 173, 189 (2007)
  140. Q.Ma, R.Peng, Y.Lin, J.Gao, G.Meng. J. Power Sources, 161, 95 (2006)
  141. Q.Ma, R.Peng, L.Tian, G.Meng. Electrochem. Commun., 8, 1791 (2006)
  142. A.C.Chien, W.Y.Chen, M.S.Zheng. J. Electrochem. Soc., 170, 044505 (2023)
  143. Y.Wang, J.Yang, J.Wang, W.Guan, B.Chi, L.Jia, J.Chen, H.Muroyama, T.Matsui, K.Eguchi. J. Electrochem. Soc., 167, 64501 (2020)
  144. K.Miyazaki, H.Muroyama, T.Matsui, K.Eguchi. Sustain. Energy Fuels, 4, 5238 (2020)
  145. K.Shaheen, H.Suo, Z.Shah, M.B.Hanif, Z.Hussain, S.Ali, M.Liu, L.Ma, J.Cui, Y.T.Ji, Y.Wang. Ceram. Int., 46, 8832 (2020)
  146. K.Shaheen, Z.Shah, H.Gulab, M.B.Hanif, S.Faisal, H.Su. Solid State Sci., 102, 106162 (2020)
  147. W.Akimoto, T.Fujimoto, M.Saito, M.Inaba, H.Yoshida, T.Inagaki. Solid State Ion., 256, 1 (2014)

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies