K. , A.K. Agarwal. Prog. Energy Combust. Sci, vol.33, pp.233-271, 2007.

R. Anderson and J. R. Anderson, Hiromichi Aono, Jun Izumi, Musashi Tomida, Yoshihiko Sadaoka. Materials Chemistry and Physics, vol.130, pp.973-979, 1975.

;. H. Arai, T. Arai, K. Yamada, T. Eguchi, and . Seiyama, Applied Catalysis, Ceramics International, vol.26, pp.6555-6571, 1986.

R. Auer, F. C. Bernal, J. J. Calvino, M. A. Cauqui, J. A. Perez-omil et al., Thyrion. Industrial & Engineering Chemistry Research, vol.41, pp.127-138, 1998.

J. Bickel, B. Odendall, G. Eigenberger, and U. Nieken, Chemical Engineering Science, vol.160, pp.525-534, 2015.

H. Birgersson, L. Eriksson, M. Boutonnet, and S. G. Jaras, Applied Catalysis B: Environmental, vol.54, pp.193-200, 2004.

H. Birgersson, M. Boutonnet, S. Jaras, and L. Eriksson, Topics in Catalysis, vol.30, pp.433-437, 2004.

M. Bosomoiu, G. Bozga, D. Berger, and C. Matei, Applied Catalysis B: Environmental, vol.84, pp.758-765, 2008.

H. Brewster, J. H. Brewster, and T. T. Kodas, AIChE Journal, vol.43, pp.2665-2669, 1997.

D. D. Brown-;-i and . Brown, Modeling the structures of La 2 NiO 4, Zeitschrift für Kristallographie, vol.199, pp.255-272, 1992.

O. Büchler, J. M. Serra, W. A. Meulenberg, D. Sebold, and H. P. Buchkremer, Solid State Ionics, vol.178, pp.91-99, 2007.

H. Burtscher, Journal of Aerosol Science, vol.36, pp.896-932, 2005.

K. Byrappa and M. Yoshimura, Handbook of hydrothermal technology. A technology of crystal growth and materials processing, Byrappa, 2001.

A. Cao-;-anmin-cao, R. Lu, and G. Veser, Physical Chemistry Chemical Physics, vol.12, pp.13499-13510, 2010.

. Guozhong, Y. Cao, and . Wang, , 2004.

M. Castagnola, J. Caserta, S. Chatterjee, and H. Chen, SAE Technical Paper, pp.2011-2012, 2011.

G. Cavataio, J. Girard, and C. Lambert, SAE Technical Paper, 2009.

M. Cernea, Journal of Optoelectronics and Advanced Materials, vol.11, pp.1191-1195, 2009.

;. T. Chan, E. Chan, J. Meloche, R. Kubsh, and . Brezny, SAE International Journal of Fuels and Lubricants, vol.6, issue.2, pp.350-371, 2013.

J. Chandradass, M. Balasubramanian, and K. H. Kim, Materials and Manufacturing Processes, vol.25, pp.1449-1453, 2010.

F. F. Chen-;-l, G. Chen, J. A. González, L. E. Wang, A. Noren et al., Applied Surface Science, vol.243, pp.319-328, 2005.

T. Cheng, J. Wang, S. Wang, Y. Cui, H. Zhang et al., Applied Surface Science, vol.426, pp.745-754, 2017.

Y. M. Chiang, D. Birnie, and W. D. Kingery, Physical Ceramics: Principles for Ceramic Science and Engineering, 1997.

L. L. Chiarello-;-g, I. Chiarello, L. Rossetti, P. Forni, G. Lopinto et al., Applied Catalysis B: Environmental, vol.72, pp.227-232, 2007.

;. P. Ciambelli, S. Ciambelli, L. Cimino, and . Lisi, Applied Catalysis B: Environmental, vol.33, pp.193-203, 2001.

A. Civera, M. Pavese, G. Saracco, and V. Specchia, Catalysis Today, vol.83, pp.199-211, 2003.

E. V. Costa-;-m, P. Q. Costa, and . Mantas, Journal of the European Ceramic Society, vol.19, pp.1077-1080, 1999.

. Ph, H. Courty, C. Ajot, B. Marcilly, and . Delmon, Powder Technology, vol.7, pp.21-38, 1973.

P. Cousin and R. A. Ross, Materials Science and Engineering: A, vol.130, pp.119-125, 1990.

;. D'souza, L. Souza, J. R. Jiao, J. T. Regalbuto, A. J. Miller et al., Journal of Catalysis, vol.248, pp.165-174, 2007.

J. Deng, Y. Zhou, S. Li, L. Xiong, J. Wang et al., Journal of Industrial and Engineering Chemistry, vol.64, pp.219-229, 2018.

D. Eggenschwiler-;-dimopoulos-eggenschwiler, P. Tsinoglou, D. N. Seyfert, and J. , Experiments in Fluids, vol.47, pp.209-222, 2009.

S. Diodati, L. Diodati, . Nodari, M. Natile, and . Maria, European Journal of Inorganic Chemistry, pp.875-887, 2014.

M. Djoudi-;-lynda-djoudi and . Omari, Journal of Inorganic and Organometallic Polymers and Materials, vol.25, pp.796-803, 2015.

H. Du, X. Lin, Z. Xu, and D. Chu, Journal of Materials Science, vol.50, pp.5641-5673, 2015.

D. Duprez, C. Descorme, T. Birchem, and E. Rohart, Topics in Catalysis, vol.16, pp.49-56, 2001.

C. Enger, Bjørn Christian Enger, Rune Lødeng, Anders Holmen, Applied Catalysis A: General, vol.346, pp.1-27, 2008.

, European Union emission inventory report, 1990-2011 under the UNECE Convention

A. Eyssler, A. Winkler, P. Mandaliev, P. Hug, A. Weidenkaff et al., Eyssler, Applied Catalysis B: Environmental, vol.106, pp.494-502, 2011.

W. W. Fickel-;-d, R. F. Fickel, and . Lobo, Journal of Physical Chemistry C, vol.114, pp.1633-1640, 2010.

W. W. Fickel-;-d, E. Fickel, J. A. D'addio, R. F. Lauterbach, and . Lobo, Applied Catalysis B: Environmental, vol.102, pp.441-448, 2011.

M. J. Fiedorow-;-r, S. E. Fiedorow, and . Wanke, Journal of Catalysis, vol.43, pp.34-42, 1976.

M. J. Fiedorow-;-r, S. E. Fiedorow, and . Wanke, Applied Catalysis B: Environmental, vol.14, pp.249-259, 1997.

L. G. Fierro and ;. L. Fierro, Catalysis Today, vol.8, pp.153-174, 1990.

D. Fino, N. Russo, G. Saracco, V. Specchia, ;. Foger et al., Journal of Catalysis, vol.217, pp.64-78, 1985.

K. Foger-;-b, ]. K. Foger, D. Hay, and H. Jaeger, Journal of Catalysis, vol.96, pp.154-169, 1985.

B. Gangdev, Femina Patel. International Conference on Multidisciplinary Research & Practice, vol.1, pp.606-608, 2014.

I. Gekas, A. Vressner, and K. Johansen, SAE Technical Paper, 2009.

P. Gélin and M. Primet, Applied Catalysis B: Environmental, vol.39, pp.1-37, 2002.

M. M. Goldschmidt-;-v and . Goldschmidt, Die Naturwissenschaften, vol.21, pp.477-485, 1926.

A. Gomes-;-maria, A. Gomes, A. S. Lima, K. I. Eguiluz, and G. R. Salazar-banda, Journal of Materials Science, vol.51, pp.4709-4727, 2016.

B. ;. Goodenough, J. M. Goodenough, and . Longo, In Landolt-Bronstein New Series, 1970.

K. H. Hellwege, A. M. Helwege, and . Eds, , vol.4, p.215, 1970.

;. P. Granger, J. J. Granger, L. Lecomte, G. Leclercq, and . Leclercq, Applied Catalysis A: General, vol.208, pp.369-379, 2001.

;. P. Granger, P. Granger, G. Malfoy, and . Leclercq, Journal of Catalysis, vol.223, pp.142-151, 2004.

;. P. Granger and . Granger, Catalysis Science & Technology, vol.7, pp.5195-5211, 2017.

D. , Optimisation of Three Way Filter (TWFTM) Coatings and Systems for Euro 6, Advanced Emission Control Concepts for Gasoline Engines, Greenwell, 2013.

R. Guan-;-bin-guan, H. Zhan, and . Lin, Zhen Huang. Applied Thermal Engineering, vol.66, pp.395-414, 2014.

R. Guan-;-bin-guan, H. Zhan, Z. Lin, and . Huang, Journal of Environmental Management, vol.154, pp.225-258, 2015.

N. Guilhaume and M. Primet, Guilhaume, Journal of Catalysis, vol.165, pp.197-204, 1997.

A. Gurupatham and Y. He, SAE International Journal of Fuels and Lubricants, vol.1, issue.1, pp.1387-1396, 2009.

F. F. Hansen-;-k and . Hansen, Development of Gasoline Particulate Filters. 3rd International Conference Advanced Emission Control Concepts for Gasoline Engines, 2014.

X. Hao, S. Barnes, and J. R. Regalbuto, Journal of Catalysis, vol.279, pp.48-65, 2011.

D. H. Prasad, S. Y. Park, E. O. Oh, H. Ji, H. R. Kim et al., Applied Catalysis A: General, pp.100-106, 2009.

]. S. Hernandez-2012, G. A. Hernandez, N. Blengini, D. Russo, and . Fino, Industrial & Engineering Chemistry Research, vol.51, pp.7584-7589, 2012.

Y. Y. Hernández-;-w, M. N. Hernández, C. Tsampas, A. Zhao, F. Boreave et al., Catalysis Today, vol.258, pp.525-534, 2015.

-. Hsiang-;-h-i, F. Hsiang, Y. -s.-yen, and . Chang, Journal of Materials Science, vol.31, pp.2417-2424, 1996.

F. Huang, X. Sun, Y. Zheng, Y. Xiao, and Y. Zheng, Materials Letters, vol.210, pp.287-290, 2018.

L. ;. Hueso, A. Hueso, M. Caballero, A. R. Ocana, and . González-elipe, Journal of Catalysis, vol.257, pp.334-344, 2008.

M. Huízar-félix, ;. A. Huízar-félix, T. Hernández, and S. De-la-parra, J. Ibarra, B. Kharisov. Powder Technology, vol.229, pp.290-293, 2012.

L. Jiao, J. R. Regalbuto, ;. Jiménez, R. Zamora, G. Pecchi et al., Fuel Processing Technology, vol.260, pp.546-549, 2008.

V. V. Johnson, Review of Diesel Emissions and Control, SAE Technical Paper, 2010.

V. V. Johnson, Review of Emerging Trends on Gasoline Emissions Control, 3rd International Conference Advanced Emission Control Concepts for Gasoline Engines, 2014.

A. Kaddouri-;-a.-kaddouri and S. Ifrah, Catalysis Communications, vol.7, pp.109-113, 2006.

A. Kaddouri, P. Gelin, and N. Dupont, Catalysis Communications, vol.10, pp.1085-1089, 2009.

A. Kahoul, A. Hammouche, F. Naamoune, P. Chartier, G. Poillerat et al., Materials Research Bulletin, vol.35, pp.1955-1966, 2000.

J. Ka?par, . P. Mauro-graziani, and . Fornasiero, Handbook on the Physics and Chemistry of Rare Earths, Chapter 184 Ceria-containing three-way catalysts, Paolo Fornasiero. Catalysis Today, vol.29, pp.419-449, 2000.

B. Katz, B. Michael, S. Katz, Y. Zhang, H. Duan et al., Xiaoqing Pan. Journal of Catalysis, vol.293, pp.145-148, 2012.

;. A. Kawakami, T. Kawakami, Y. Mizutani, K. Shibagaki, H. Yuuki et al., SAE Technical Papers, pp.2012-2013, 2012.

S. Keav, S. K. Matam, D. Ferri, and A. Weidenkaff, Catalysts, vol.4, pp.226-255, 2014.

P. P. Khattak-;-c, F. F. Khattak, and . Wang, Handbook of the Physics and Chemistry of Rare Earths, 1979.

K. A. Gschneider and L. Eyring, , p.525, 1979.

J. Kirchnerova, M. Alifanti, and B. Delmon, Applied Catalysis A: General, Kirchnerova, vol.231, pp.65-80, 2002.

B. B. Kittelson-;-d and . Kittelson, Journal of Aerosol Science, vol.29, pp.575-588, 1998.

A. Klimkowicz, K. ?wierczek, A. Takasaki, and B. Dabrowski, Solid State Ionics, vol.257, pp.23-28, 2014.

R. Koirala and S. E. Pratsinis, Alfons Baiker. Chemical Society Reviews, vol.45, pp.3053-3068, 2016.

G. Kremeni?, M. L. José, . Nieto, M. D. Juan, L. G. Tascón et al., Faraday Transactions 1: Physical Chemistry in Condensed Phases, Journal of the Chemical Society, vol.81, pp.939-949, 1985.

T. K?rfer-;-li-lan, S. Chen, H. Li, H. Li, W. Wu et al., Journal of the Taiwan Institute of Chemical Engineers, vol.58, pp.98-105, 2008.

R. Leanza, I. Rossetti, L. Fabbrini, C. Oliva, and L. Forni, Applied Catalysis B: Environmental, vol.28, pp.55-64, 2000.

J. J. Lee-;-t, Y. G. Lee, and . Kim, Journal of Catalysis, vol.90, pp.279-291, 1984.

H. Lee, H. Jong, M. J. Lee, D. B. Paratore, and . Brown, SAE International Journal of Fuels and Lubricants, vol.1, issue.1, pp.96-101, 2009.

H. Lee, D. Lee, Y. Song, . Won-choon, Y. Choi et al., Do Heui Kim. Chemical Engineering Journal-Lausanne, vol.259, p.368, 2015.

H. Lieske, G. Lietz, H. Spindler, and J. Völter, Lieske, Journal of Catalysis, vol.81, pp.8-16, 1983.

G. Lietz, H. Lieske, H. Spindler, W. Hanke, and J. Völter, Journal of Catalysis, vol.81, pp.17-25, 1983.

H. H. Lin-;-c, H. Y. Lin, I. N. Chang, and . Lin, IEEE Transactions on Magnetics, vol.33, pp.3415-3417, 1997.

;. Liu, X. Liu, G. Liu, D. D. Liu, E. E. Taylor et al., Chemical Communications, vol.48, pp.10369-10372, 2001.

P. Lucena, J. M. Vadillo, and J. J. Laserna, Analytical Chemistry, vol.71, pp.4385-4391, 1999.

S. M. Luis-;-o, P. Luis, C. Jon, and L. Luis, Journal of Materials Chemistry, vol.15, pp.183-193, 2005.

K. K. Mahata-;-m, K. Mahata, V. K. Kumar, and . Rai, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, vol.124, pp.285-291, 2014.

M. M. Maricq-;-m and . Maricq, Journal of Aerosol Science, vol.38, pp.1079-1118, 2007.

;. M. Markova-velichkova, T. Markova-velichkova, V. Lazarova, and . Tumbalev, Chemical Engineering Journal, vol.231, pp.236-244, 2013.

;. F. Matei, C. Matei, J. Jiménez-borja, S. Canales-vázquez, F. Brosda et al., Ciuparu. Applied Catalysis B: Environmental, pp.80-89, 2013.

S. Matsumoto, Catalysis Today, vol.90, pp.183-190, 2004.

K. K. Meher-;-s, M. Meher, H. Cargnello, T. Troiani, G. R. Montini et al., Applied Catalysis B: Environmental, vol.257, pp.26-34, 2013.

]. A. Mishra-2017, R. Mishra, and . Prasad, Bulletin of Chemical Reaction Engineering & Catalysis, vol.12, pp.469-477, 2017.

M. Mohsennia, B. Niknahad, and A. Eliassi, Journal of Sol-Gel Science and Technology, vol.82, pp.458-467, 2017.

;. C. Morgan and . Morgan, Three Way Filters (TWF TM ) for Particulate Number Control, Advanced Emission Control Concepts for Gasoline Engines, 2012.

M. Naseri, S. Chatterjee, and M. Castagnola, International Journal of Engines, vol.4, issue.1, pp.1798-1809, 2011.

E. Ngan, P. Wetzel, and J. J. Mccarthy, SAE Technical Paper, vol.418, pp.164-167, 2002.

Y. Nishihata, J. Mizuki, H. Tanaka, M. Uenishi, and M. Kimura, Journal of Physics and Chemistry of Solids, vol.66, pp.274-282, 2005.

Y. Noboru, T. Yasutake, and S. Tetsuro, Chemistry Letters, vol.10, pp.1767-1770, 1981.

M. Ozawa-;-masakuni-ozawa, M. Takahashi-morita, K. Kobayashi, and M. Haneda, Catalysis Today, vol.281, pp.482-489, 2017.

M. Pacella, A. Garbujo, J. Fabro, M. Guiotto, Q. Xin et al., Applied Catalysis B: Environmental, vol.227, pp.446-458, 2018.

K. K. Patel-;-d, B. Patel, V. Vishwanadh, R. Sudarsan, S. K. Vatsa et al., Journal of the American Ceramic Society, vol.94, pp.482-487, 2010.

C. C. Patil-;-]-k, S. T. Patil, T. Aruna, and . Mimani, Current Opinion in Solid State and Materials Science, vol.6, pp.507-512, 2002.

P. Pechini-;-maggio, P. A. Pechini-;-m, J. L. Pena, and . Fierro, Chemical Reviews, vol.330, issue.3, p.697, 1967.

G. Perin, J. Fabro, M. Guiotto, Q. Xin, M. M. Natile et al., Applied Catalysis B: Environmental, vol.209, pp.214-227, 2017.

P. Peter, Mechanochemistry in Nanoscience and Minerals Engineering, 2008.

M. M. Petkovic-;-l, V. Petkovic, S. N. Utgikar, and . Rashkeev, Journal of Physical Chemistry C, vol.115, pp.8709-8715, 2011.

S. Philipp, R. Hoyer, F. Adam, S. Eckhoff, R. Wunsch et al., SAE Technical Papers, vol.2, p.97364, 2013.

W. Piock, G. Hoffman, A. Berndorfer, P. Salemi, and B. Fusshoeller, SAE International Journal of Engines, vol.4, pp.1455-1468, 2011.

R. Prasad and V. R. Bella, Bulletin of Chemical Reaction Engineering & Catalysis, vol.5, pp.69-86, 2010.

A. Raj, A review of mobile and stationary source emissions abatement technologies for natural gas engines, Johnson Matthey Technology Review, vol.60, issue.4, pp.228-235, 2016.

D. D. Ramesh-;-p, P. Ramesh, S. Sarin, K. J. Jeevan, and . Rao, Journal of Materials Synthesis and Processing, vol.4, pp.163-173, 1996.

R. Ran-;-rui-ran, D. Weng, X. Wu, J. Fan, and L. Qing, Catalysis Today, vol.126, pp.394-399, 2007.

G. G. Rappé-;-k and . Rappé, Industrial & Engineering Chemistry Research, vol.53, pp.17547-17557, 2014.

R. ;. Regalbuto, A. Regalbuto, S. Navada, M. L. Shadid, Q. Bricker et al., Journal of Catalysis, vol.184, pp.335-348, 1999.

D. D. Ristovski-;-z, B. M. Ristovski, N. C. Miljevic, and . Surawski, Respirology, vol.17, pp.201-212, 2012.

D. Rose, J. Jamison, T. Boger, and R. Kataria, SAE Technical Paper, pp.2013-2039, 2013.

I. Rossetti and L. Forni, Applied Catalysis B: Environmental, vol.33, pp.345-352, 2001.

M. M. Roy-;-d, S. O. Roy, and . Oyefesobi, Journal of the American Ceramic Society-Discussions and Notes, vol.60, pp.178-180, 1977.

S. Royer, H. Alamdari, D. Duprez, and S. Kaliaguine, Applied Catalysis B: Environmental, vol.58, pp.273-288, 2005.

S. Royer, F. Bérubé, and S. Kaliaguine, Applied Catalysis A: General, vol.282, pp.273-284, 2005.

. Royer-;-sebastien, D. Royer, F. Duprez, X. Can, and . Courtois, Catherine Batiot-Dupeyrat, Said Laassiri, Houshang Alamdari, Chemical Reviews, vol.114, pp.10292-10368, 2014.

N. Russo, D. Fino, G. Saracco, and V. Specchia, Journal of Catalysis, vol.229, pp.459-469, 2005.

;. C. Saito, T. Saito, Y. Nakatani, and . Miyairi, SAE Technical Paper, vol.201, pp.62-67, 2011.

Z. Say, M. Dogac, E. I. Vovk, Y. E. Kalay, C. H. Kim et al., Applied Catalysis B: Environmental, pp.51-61, 2014.

M. Schreier, J. R. Schreier, and . Regalbuto, Journal of Catalysis, vol.225, pp.190-202, 2004.

E. E. Shea-;-l, J. Shea, O. A. Mckittrick, and . Lopez, Journal of the American Ceramics Society, vol.79, pp.3257-3265, 1996.

;. M. Shen, M. Shen, J. Yang, J. Wang, M. Wen et al., Journal of Physical Chemistry C, vol.113, pp.3212-3221, 2009.

L. Shen-;-meiqing-shen, J. Song, X. Wang, and . Wang, Catalysis Communications, vol.22, pp.28-33, 2012.

G. G. Shim-;-w, S. C. Shim, S. G. Jung, S. C. Seo, and . Kim, Journal of Rare Earths, vol.164, pp.567-590, 2011.

K. Simmance, D. Thompsett, B. Weiliangwang, and . Thiebaut, Simmance, Catalysis Today, vol.320, pp.40-50, 2019.

M. Stoukides, ;. Stoukides, and C. G. Vayenas, Journal of Catalysis, vol.69, pp.18-31, 1981.

E. ;. Stulga, P. Stulga, J. K. Wynblatt, ;. Tien, M. Szabo et al., Applied Catalysis B: Environmental, vol.62, pp.81-92, 1980.

H. Taguchi, M. Shin-ichiro-matsu-ura, and . Nagao, Journal of Solid State Chemistry, vol.129, pp.60-65, 1997.

, Bulletin for the History of Chemistry, Takacs 2003] Laszlo Takacs, vol.28, pp.4987-4993, 2003.

]. H. Tanaka-;-a, M. Tanaka, M. Uenishi, M. Taniguchi, Y. Kimura et al., Poster Session 6-119, ICC 13th, 2004.

]. H. Tanaka-;-b, M. Tanaka, N. Taniguchi, M. Kajita, I. Uenishi et al., Topics in Catalysis, vol.30, pp.389-396, 2004.

, Tanaka 2005] Hirohisa Tanaka. Catalysis Surveys from Asia, vol.9, pp.63-74, 2005.

. Tanaka-;-hirohisa, M. Tanaka, M. Taniguchi, N. Uenishi, I. Kajita et al., Angewandte Chemie International Edition, vol.45, pp.5998-6002, 2006.

Y. Y. Tang-;-w, D. Tang, M. Younger, S. Santamaria, and . Kumar, SAE International Journal of Engines, vol.6, issue.2, pp.862-872, 2013.

M. Taniguchi, M. Uenishi, I. Tan, H. Tanaka, M. Kimura et al., J. Mizuki. SAE Paper, 1272.

M. Taniguchi, H. Tanaka, M. Uenishi, I. Tan, Y. Nishihata et al., Topics in Catalysis, pp.367-371, 2007.

C. C. Taylor-;-]-k and . Taylor, Automobile catalytic converters, Catalysis-Science and Technology, pp.119-170, 1984.

G. G. Tejuca-;-l, J. L. Tejuca, J. M. Fierro, and . Tascón, Advances in Catalysis, vol.36, pp.237-328, 1989.

G. G. Tejuca-;-l, J. L. Tejuca, and . Fierro, Properties and applications of perovskite-type oxides, 1993.

P. Tennison, C. Lambert, and M. Levin, Teraoka 1985] Yasutake Teraoka, Hua-Min Zhang, vol.14, pp.1367-1370, 1291.

G. Tonetto, M. L. Ferreira, and D. E. Damiani, Journal of Molecular Catalysis A: Chemical, vol.171, pp.123-141, 2001.

K. Traina, M. C. Steil, J. P. Pirard, C. Henrist, A. Rulmont et al., Journal of the European Ceramic Society, vol.27, pp.3469-3474, 2007.

R. Tree-;-d.r.-tree and K. I. Svensson, Progress in Energy and Combustion Science, vol.33, pp.272-309, 2007.

A. Trovarelli, Catalysis Reviews-Science and Engineering, vol.38, pp.439-520, 1996.

V. Tyurkin, Y. V. Tyurkin, L. A. Chesalov, and E. N. Luzhkova, Reaction Kinetics and Catalysis Letters, vol.60, pp.279-284, 1997.

M. Uenishi, M. Taniguchi, H. Tanaka, M. Kimura, Y. Nishihata et al., Uenishi, Applied Catalysis B: Environmental, vol.57, pp.267-273, 2005.

M. Um, ;. Um, and H. Kumazawa, Journal of Materials Science, vol.35, pp.1295-1300, 2000.

M. Václavík, M. Plachá, and P. Ko?í, , vol.134, pp.311-318, 2017.

J. H. Voorhoeve-;-r, J. P. Voorhoeve, L. E. Remeika, and . Trimble, Materials Research Bulletin, vol.9, pp.1393-1404, 1974.

J. H. Voorhoeve-;-r, J. P. Voorhoeve, L. E. Remeika, and . Trimble, Journal of Solid State Chemistry, vol.14, pp.395-406, 1975.

J. H. Voorhoeve-;-r, J. P. Voorhoeve, L. E. Remeika, and . Trimble, Annals of the New York Academy of Sciences, vol.272, pp.3-21, 1976.

J. H. Voorhoeve-;-r and . Voorhoeve, Advanced Materials in Catalysis, 1977.

E. Vouitsis and L. Ntziachristos, Vouitsis, Z. Samaras. Progress in Energy and Combustion Science, vol.29, pp.635-672, 2003.

A. Vressner, P. Gabrielsson, and I. Gekas, Vressner, SAE Technical Paper, pp.2010-2011, 2010.

;. X. Wang, Y. X. Wang, Q. Zhang, Z. P. Li, Z. L. Wang et al., Catalysis Science & Technology, vol.2, pp.1822-1824, 2012.

H. Wang, H. Chen, Z. Hu, M. Yao, and Y. Li, Catalysis Reviews-Science and Engineering, vol.57, issue.1, pp.79-144, 2015.

;. P. Whitaker, P. Whitaker, M. Kapus, P. Ogris, and . Hollerer, SAE Technical Paper, pp.2011-2012, 2011.

;. A. Williams, R. L. Williams, R. R. Mccormick, and . Hayes, SAE Technical Paper, 2006.

;. H. Xu, S. Xu, H. Wei, M. Wang, R. Zhu et al., Journal of Crystal Growth, vol.292, pp.159-164, 2006.

J. Xu, Y. Wei, Y. Huang, J. Wang, X. Zheng et al., Ceramics International, vol.40, pp.10583-10591, 2014.

S. S. Yakovleva-;-i, A. N. Yakovleva, E. Nadeev, . Yu, D. V. Gerasimov et al., Journal of the American Ceramic Society, vol.54, pp.1067-1071, 1994.

Y. Yoon-;-dal-young-yoon, Y. J. Kim, J. H. Lim, B. K. Cho, S. B. Hong et al., Jin Woo Choung. Journal of Catalysis, vol.330, pp.2010-2011, 2010.

;. S. Zhang, J. Zhang, Y. Liu, B. Han, X. Chen et al., Materials Science and Engineering: B, vol.110, pp.11-17, 2004.

;. Y. Zhang-steenwinkel, L. M. Zhang-steenwinkel, H. L. Van-der-zande, A. Castricum, and . Bliek, Applied Catalysis B: Environmental, vol.54, pp.93-103, 2004.

Q. Zheng, R. Farrauto, and M. Deeba, Zheng, vol.5, pp.1770-1796, 2015.

N. Feng, C. Chen, and J. Meng, Catalysis Science & Technology, vol.7, pp.2204-2212, 2017.

L. ;. Hueso, D. Hueso, A. Martínez-martínez, and . Caballero, Catalysis Communications, vol.10, pp.1898-1902, 2009.

N. Li, H. N. Li, L. Zhang, H. X. Dai, and H. He, Inorganic Chemistry, vol.48, pp.4421-4434, 2009.

X. X. Liu-;-c, L. Liu, J. G. Zhang, Q. Deng, H. X. Mu et al., Journal of Physical Chemistry C, vol.112, pp.19248-19256, 2008.

. Liu-2012]-yuxi, H. Liu, Y. Dai, and . Du, Journal of Catalysis, vol.287, pp.149-160, 2012.

G. Parravano, Journal of the American Chemical Society, vol.75, pp.1497-1498, 1953.

;. A. Schön and . Schön, Development of alternative 3-way catalysts: Fe-based perovskites with low noble metal content. Thesis, 2015.

H. Taguchi, M. Shin-ichiro-matsu-ura, and . Nagao, Journal of Solid State Chemistry, vol.129, pp.60-65, 1997.

M. Aryanpour, A. Khetan, and H. Pitsch, ACS Catalysis, vol.3, pp.1253-1262, 2013.

C. Chambers-;-dean, C. Chambers, E. Dennys, . Angove, W. Noel et al., Journal of Catalysis, vol.204, pp.11-22, 2001.

G. Colón, M. Pijolat, and F. Valdivieso, Journal of the Chemical Society, vol.94, pp.3717-3726, 1998.

Y. Cui, L. Lan, Z. Shi, S. Yuan, Y. Chen et al., Journal of Industrial and Engineering Chemistry, vol.60, pp.102-103, 2018.

F. F. Cullis-;-c, T. G. Cullis, and . Nevell, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol.349, pp.523-534, 1976.

A. A. Daley-;-r, S. Y. Daley, A. M. Christou, and . Efstathiou, Applied Catalysis B: Environmental, vol.60, pp.117-127, 2005.

B. De-rivas, R. López-fonseca, and M. A. Gutiérrez-ortiz, Applied Catalysis B: Environmental, vol.101, pp.317-325, 2011.

J. Deng, Y. Zhou, S. Li, L. Xiong, J. Wang et al., Journal of Industrial and Engineering Chemistry, vol.64, pp.219-229, 2018.

D. Duprez, C. Descorme, and T. Birchem, Topics in Catalysis, vol.16, pp.453-457, 2001.

;. M. Fernández-garcia, A. Fernández-garcia, A. Martínez-arias, C. Iglesias-juez, A. B. Belver et al., Journal of Catalysis, vol.194, pp.385-392, 2000.

;. M. Fernández-garcía, A. Fernández-garcía, A. B. Martínez-arias, and . Hungría, Physical Chemistry Chemical Physics, vol.4, pp.2473-2481, 2002.

R. Ferraro, J. R. Ferraro, and K. Nakamoto, Introductory Raman Spectroscopy, 1994.

P. Fornasiero, G. Balducci, R. Di-monte, J. Kaspãr, V. Sergo et al., Journal of Catalysis, vol.164, pp.173-183, 1996.

C. C. Garvie-;-r and . Garvie, Journal of Physical Chemistry, vol.82, pp.218-224, 1978.

R. Juan, M. A. González-velasco, J. Gutiérrez-ortiz, and . Marc, Applied Catalysis B: Environmental, vol.33, pp.303-314, 2001.

;. N. Guillén-hurtado, A. Guillén-hurtado, A. Bueno-lópez, and . García-garcía, Journal of Materials Science, vol.47, pp.3204-3213, 2012.

I. Halasz and A. Brenner, Applied Catalysis A: General, Halasz, vol.82, pp.51-63, 1992.

;. N. Hickey, P. Hickey, J. Fornasiero, and . Kaspar, Journal of Catalysis, vol.200, pp.181-193, 2001.

H. ;. Holles, M. A. Holles, R. J. Switzer, and . Davis, Journal of Catalysis, vol.190, pp.247-260, 2000.

;. W. Huang, Z. Huang, P. Zuo, Z. Han, T. Li et al., Journal of Electron Spectroscopy and Related Phenomena, vol.173, pp.88-95, 2009.

A. Iglesias, A. Martinez-arias, and M. Fernandez-garcia, Journal of Catalysis, vol.221, pp.148-161, 2004.

J. Jehng, Journal of Physical Chemistry B, vol.102, pp.5816-5822, 1998.

J. Ka?par, P. Fornasiero, and M. Graziani, Ka?par, Catalysis Today, vol.50, pp.285-298, 1999.

J. Kaspar, P. Fornasiero, and N. Hickey, Ka?par, Catalysis Today, vol.77, pp.419-449, 2003.

M. Konsolakis-;-m.-konsolakis and I. V. Yentekakis, Journal of Hazardous Materials, vol.149, pp.619-624, 2007.

;. F. Le-normand, J. E. Le-normand, L. Fallah, P. Hilaire, A. Légaré et al., Solid State Communications, vol.71, issue.11, pp.885-889, 1989.

;. S. Letichevsky, C. A. Letichevsky, R. R. Tellez, M. I. De-avillez, M. A. Silva et al., Applied Catalysis B: Environmental, vol.58, pp.203-210, 2005.

G. Li, Q. Wang, B. Zhao, and R. Zhou, Fuel, vol.92, pp.360-368, 2012.

;. X. Liang, X. Liang, Y. Wang, B. Zhuang, S. Xu et al., Journal of the American Chemical Society, vol.130, pp.2736-2737, 2008.

L. Lin-;-siyu-lin, X. Yang, and . Yang, Applied Surface Science, vol.305, pp.642-649, 2014.

F. F. Luo-;-m, Z. Y. Luo, M. Pu, J. He, L. Y. Jin et al., Journal of Molecular Catalysis A: Chemical, vol.260, pp.152-156, 2006.

A. ;. Lupescu, J. W. Lupescu, G. B. Schwank, X. Fisher, S. L. Chen et al., A.R. Drews. Applied Catalysis B: Environmental, vol.185, pp.189-202, 2016.

Y. Madier, C. Descorme, A. M. Le-govic, and D. Duprez, Madier, Journal of Physical Chemistry B, vol.103, pp.10999-11006, 1999.

;. A. Martínez-arias, M. Martínez-arias, A. Fernández-garcía, A. B. Iglesias-juez, J. A. Hungría et al., J. Soria. Applied Catalysis B: Environmental, vol.31, pp.51-60, 2001.

S. Matsumoto, Catalysis Today, vol.90, pp.183-190, 2004.

;. W. Mista, T. Mista, J. Rayment, L. Hanuza, and . Macalik, Materials Science-Poland, vol.22, pp.153-170, 2004.

A. Montini-;-tiziano-montini, L. Speghini, and . De-rogatis, Journal of the American Chemical Society, vol.131, pp.13155-13160, 2009.

;. M. Moroseac, T. Moroseac, K. Skála, V. Veltruská, I. Matolín et al., Surface Science, vol.566, pp.1118-1123, 2004.

;. R. Mueller, L. Mueller, S. E. Mädler, and . Pratsinis, Chemical Engineering Science, vol.58, pp.1969-1976, 2003.

H. Muraki, K. Yokota, and Y. Fujitani, Applied Catalysis, vol.48, pp.93-105, 1989.

T. Murota, T. Hasegawa, and S. Aozasa, Journal of Alloys and Compounds, vol.193, pp.298-299, 1993.

K. Otto, L. P. Haack, and J. E. De-vries, Applied Catalysis B: Environmental, vol.1, issue.1, pp.1-12, 1992.

K. Paredis, L. K. Ono, and F. Behafarid, Journal of the American Chemical Society, vol.133, pp.13455-13464, 2011.

P. Gonzales-marcos, ;. M. Gonzales-marcos, B. Pereda-ayo, A. Aranzabal, J. A. Gonzales-marcos et al., Catalysis Today, vol.180, pp.88-95, 2012.

J. H. R-rajasree, J. C. Hoebink, and . Schouten, Journal of Catalysis, vol.223, pp.36-43, 2004.

M. M. Reddy-;-b, P. Reddy, P. Bharali, S. Saikia, M. W. Park et al., Journal of Physical Chemistry C, vol.112, pp.11729-11737, 2008.

M. M. Slavinskaya-;-e, O. A. Slavinskaya, R. V. Stonkus, A. S. Gulyaev, V. I. Ivanova et al., A.I. Boronin. Applied Catalysis A: General, vol.401, pp.83-97, 2011.

J. J. Stark-;-w, M. Stark, L. Maciejewski, S. E. Mädler, A. Pratsinis et al., Journal of Catalysis, vol.220, pp.35-43, 2003.

M. Teng, L. Luo, and X. Yan, Microporous and Mesoporous Materials, vol.119, pp.158-164, 2009.

;. C. Thomas, O. Thomas, F. Gorce, G. Villain, and . Djega-mariadassou, Journal of Molecular Catalysis A: Chemical, vol.249, pp.71-79, 2006.

A. Trovarelli, Catalysis by ceria and related materials, 2002.

G. Vlaic, P. Fornasiero, S. Geremia, J. Ka?par, and M. Graziani, Journal of Catalysis, vol.168, pp.386-392, 1997.

G. Vlaic, R. Di-monte, P. Fornasiero, E. Fonda, J. Ka?par et al., Studies in Surface Science and Catalysis, vol.116, pp.185-195, 1998.

G. Vlaic, R. Di-monte, and P. Fornasiero, Journal of Molecular Catalysis A: Chemical, vol.182, pp.132-137, 1999.

]. Q. Wang-;-b, G. Wang, R. Li, and . Zhou, Fuel, vol.90, pp.3047-3055, 2011.

;. J. Wang, M. Wang, Y. Shen, J. An, . Wang-;-jihui et al., Catalysis Reviews: Science and Engineering, vol.10, pp.79-144, 2008.

S. S. W?rz-;-a, K. W?rz, S. Judai, U. Abbet, and . Heiz, Journal of the American Chemical Society, vol.125, pp.7964-7970, 2003.

C. Yao, H. C. Yao, Y. F. , and Y. Yao, Journal of Catalysis, vol.86, pp.254-265, 1984.

M. Yashima, K. Morimoto, and N. Ishizawa, Journal of the American Ceramic Society, vol.76, pp.2865-2868, 1993.

M. Yashima, H. Arashi, and M. Kakihana, Journal of the American Ceramic Society, vol.77, pp.1067-1071, 1994.

]. M. Yashima, H. Arashi, M. Kakihana, and M. Yoshimura, Journal of the American Ceramic Society, vol.77, pp.1869-1874, 1994.

;. F. Zhang, C. H. Zhang, J. C. Chen, R. D. Hanson, I. P. Robinson et al., Journal of the American Ceramic Society, vol.89, pp.1028-1036, 2006.

[. B. Zhao, ;. Zhao, G. F. Li, C. H. Ge, Q. Y. Wang et al., Applied Catalysis B: Environmental, vol.96, pp.338-349, 2010.

]. B. Zhao, Q. Y. Wang, G. F. Li, and R. X. Zhou, Journal of Alloys and Compounds, vol.508, pp.500-506, 2010.

Y. Y. Adonin-;-n, S. Adonin, A. Y. Prikhod'ko, I. P. Shabalin, V. I. Prosvirin et al., , 2016.

D. A. Kobubey, V. N. Zyuzin, A. A. Parmon, I. A. Monin, P. O. Bykova et al., Journal of Catalysis, vol.338, pp.143-153, 2016.

M. Alifanti, G. Bueno, V. Parvulescu, and . Al, Alifanti, Catalysis Today, vol.143, pp.309-314, 2009.

F. Amano, T. Tanaka, and T. Funabiki, Journal of Molecular Catalysis A: Chemical, vol.221, pp.89-95, 2004.

S. S. Bagus-;-p, A. J. Bagus, F. Freeman, and . Sasaki, Physical Review Letters, vol.30, pp.850-853, 1973.

S. S. Bagus-;-p, R. Bagus, E. S. Broer, and . Ilton, Chemical Physics Letters, vol.394, pp.150-154, 2004.

S. S. Bagus-;-p, R. Bagus, E. S. Broer, and . Ilton, Journal of Electron Spectroscopy and Related Phenomena, vol.165, pp.46-49, 2008.

;. D. Banerjee, H. W. Banerjee, and . Nesbitt, Geochimica et Cosmochimica Acta, vol.63, pp.3025-3038, 1999.

;. D. Banerjee, H. W. Banerjee, and . Nesbitt, Geochimica et Cosmochimica Acta, vol.65, pp.1703-1714, 2001.

P. P. Barbero-;-b, J. Barbero, and L. E. Gamboa, Cadus. Applied Catalysis B: Environmental, vol.65, pp.21-30, 2006.

T. Caronna, F. Fontana, I. Sora, and R. Pelosato, Materials Chemistry and Physics, vol.116, pp.645-648, 2009.

;. J. Chen, M. Chen, X. Shen, G. Wang, J. Qi et al., Journal of Sol-Gel Science and Technology, vol.86, pp.73-82, 2013.

;. Choy, J. Choy, S. Park, D. Hong, and . Kim, Journal of solid state chemistry, vol.111, pp.370-379, 1994.

;. Choy, S. Choy, K. Hong, and . Choi, Journal of the Chemical Society, vol.92, pp.1051-1059, 1996.

;. P. Ciambelli, S. Ciambelli, L. Cimino, and . Lisi, Applied Catalysis B: Environmental, vol.33, pp.193-203, 2001.

S. Cimino, L. Lisi, S. Rossi, M. Faticanti, and P. Porta, Applied Catalysis B: Environmental, vol.43, pp.397-406, 2003.

P. P. Dow-;-w, Y. P. Dow, T. J. Wang, and . Huang, Journal of Catalysis, vol.160, pp.155-170, 1996.

J. Emmerlich, B. M. Linke, D. Music, and J. M. Schneider, Solid State Ionics, vol.255, pp.108-112, 2014.

S. Epling, S. William, A. Epling, N. W. Yezerets, and . Currier, Catalysis Letters, vol.110, pp.143-148, 2006.

K. K. Eriksson-;-a, S. Eriksson, S. A. Eriksson, C. S. Ivanov, J. Knee et al., Materials Research Bulletin, vol.41, pp.144-157, 2006.

;. M. Fernandez-garcia, I. Fernandez-garcia, P. Rodriguez-ramos, A. Ferreira-aparicio, and . Guerro-ruiz, Journal of Catalysis, vol.178, pp.253-263, 1998.

L. Ferri-;-davide-ferri, . Forni, A. Mark, . Dekkers, E. Ben et al., Applied Catalysis B: Environmental, vol.16, pp.339-345, 1998.

N. Hamada, H. Sawada, I. Solovyev, and K. Terakura, Physica B: Condensed Matter, pp.11-13, 1997.

R. Hammami, N. Batis, H. Batis, and C. Minot, , vol.11, pp.885-893, 2009.

;. T. Hernandez, F. Hernandez, T. Plazaola, J. M. Rojo, and . Barandiaran, Journal of Alloys and Compounds, pp.440-443, 2001.

B. B. Himelfarb-;-p, F. E. Himelfarb, A. Wawner, S. N. Bieser, and . Vines, Journal of catalysis, vol.83, pp.469-471, 1983.

L. ;. Hueso, D. Hueso, A. Martínez-martínez, and . Caballero, Catalysis Communications, vol.10, pp.1898-1902, 2009.

M. Iwamoto-;-masakazu-iwamoto, H. Yahiro, Y. Mine, and S. Kagawa, Chemistry Letters, vol.18, pp.213-216, 1989.

G. G. Jernigan-;-g, G. A. Jernigan, and . Somorjai, Journal of Catalysis, vol.147, pp.567-577, 1994.

M. Johnsson and P. Lemmens, Crystallography and Chemistry of Perovskites, Johnsson, 2005.

S. ;. Jun, S. T. Martin, ;. Junta, and M. F. Hochella, Environmental Science & Technology, vol.37, pp.4985-4999, 1994.

S. Kaliaguine, A. Van-neste, V. Szabo, J. E. Gallot, M. Bassir et al., Kaliaguine, Applied Catalysis A: General, vol.209, pp.345-358, 2001.

. Sylvain-keav, D. Santhosh-kumar-matam, and . Ferri, Anke Weidenkaff. Catalysts, vol.4, pp.226-255, 2014.

Y. Kim, J. Y. Kim, J. A. Rodriguez, and J. C. Hanson, Journal Of The American Chemical Society, vol.125, issue.35, pp.10684-10692, 2003.

H. H. Kim-;-c, G. Kim, K. Qi, W. Dahlberg, and . Li, Science, vol.327, pp.1624-1627, 2010.

B. Kucharczyk and W. Tylus, Applied Catalysis A: General, vol.335, pp.28-36, 2008.

K. K. Ladavos-;-a, P. J. Ladavos, and . Pomonis, Applied Catalysis B: Environmental, vol.1, pp.101-116, 1992.

A. A. Leontiou-;-a, A. K. Leontiou, P. J. Ladavos, and . Pomonis, Applied Catalysis A: General, vol.241, pp.133-141, 2003.

. Li-;-yuejin, S. Li, J. Roth, T. Dettling, and . Beutel, Topics in Catalysis, vol.16, pp.139-144, 2001.

. Li-;-peixin, R. Li, N. Zhanga, S. Liu, and . Royer, Applied Catalysis B: Environmental, vol.203, pp.174-188, 2017.

. Liu-;-gang, P. Liu, and . Gao, Catalysis Science & Technology, vol.1, pp.552-568, 2011.

E. Lopez-suarez, ;. F. Lopez-suarez, S. Parres-esclapez, and A. Bueno-lopez, Applied Catalysis B: Environmental, vol.93, pp.82-89, 2009.

A. A. Merino-;-n, B. P. Merino, P. Barbero, L. E. Grange, and . Cadus, Journal of Catalysis, vol.231, pp.232-244, 2005.

H. Najjar, J. Lamonier, and O. Mentré, Catalysis Science & Technology, vol.3, pp.1002-1016, 2013.

T. Nakamura, M. Misono, Y. ;. Yoneda, D. Nesbitt, ;. Banerjee et al., American Mineralogist, vol.83, pp.164-167, 1983.

Y. Noboru, T. Yasutake, and S. Tetsuro, Chemistry Letters, vol.10, pp.1767-1770, 1981.

A. ;. Onrubia, B. Onrubia, U. Pereda-ayo, J. R. De-la-torre, and . González-velasco, Applied Catalysis B: Environmental, vol.213, pp.198-210, 2017.

;. L. Ortega-san, J. P. Ortega-san-martin, E. Chapman, and . Hernandez-bocanegra, Journal of Physics: Condensed Matter, vol.16, pp.3879-3888, 2004.

G. Parravano-;-f.-patcas, F. C. Buciuman, and J. Zsako, Journal of the American Chemical Society, vol.75, pp.71-76, 1953.

G. Pecchi, M. G. Jiliberto, A. Buljan, and E. J. Delgado, Solid State Ionics, vol.187, pp.27-32, 2011.

D. D. Peter-;-s, E. Peter, V. Garbowski, B. Perrichon, M. Pommier et al., Applied Catalysis A: General, vol.205, pp.147-158, 2001.

R. Pushpa, D. Daniel, and D. P. Butt, Solid State Ionics, pp.184-190, 2013.

;. V. Roche, R. Roche, P. Revel, and . Vernoux, Catalysis Communications, vol.11, pp.1076-1080, 2010.

;. J. Rodriguez, J. Rodriguez, J. Kim, and . Hanson, Catalysis Letters, vol.85, pp.247-254, 2003.

;. S. Rousseau, S. Rousseau, P. Loridant, and . Delichere, Applied Catalysis B: Environmental, vol.88, pp.438-447, 2009.

R. Roy, Alfons Baiker. Chemical Reviews, vol.109, issue.9, pp.4054-4091, 2009.

;. S. Royer, F. Royer, S. Bérubé, and . Kaliaguine, Applied Catalysis A: General, vol.282, pp.273-284, 2005.

. Royer-;-sebastien, D. Royer, F. Duprez, X. Can, and . Courtois, Catherine Batiot-Dupeyrat, Said Laassiri, Houshang Alamdari, Chemical Reviews, vol.114, pp.10292-10368, 2014.

, Catalysis Reviews, vol.53, pp.337-423, 2011.

N. Russo, D. Fino, G. Saracco, and V. Specchia, Journal of Catalysis, vol.229, pp.459-469, 2005.

;. A. Schön, C. Schön, J. P. Dujardin, P. Dacquin, and . Granger, Catalysis Today, vol.258, pp.543-548, 2015.

;. A. Schön, ;. Schön, J. P. Schön, P. Dacquin, and C. Granger, Development of alternative 3-way catalysts: Fe-based perovskites with low noble metal content, Dujardin. Applied Catalysis B: Environmental, vol.223, pp.167-176, 2015.

C. C. Sorenson-;-s, J. A. Sorenson, L. B. Wronkiewicz, G. P. Sis, and . Wirtz, , vol.53, pp.446-449, 1974.

R. Spinicci, A. Delmastro, S. Ronchetti, and A. Tofanari, Materials Chemistry and Physics, vol.78, pp.393-399, 2002.

. Takahashi-;-naoki, H. Takahashi, T. Shinjoh, and . Iijima, Catalysis Today, vol.27, pp.63-69, 1996.

;. H. Tanaka, N. Tanaka, M. Mizuno, and . Misono, Applied Catalysis A: General, vol.244, pp.371-382, 2003.

Y. Teraoka, H. Nii, and S. Kagawa, Kjell Jansson and Mats Nygren, Journal of Materials Chemistry, vol.6, issue.1, pp.97-102, 1996.

;. Z. Tian, K. Tian, Y. Inagaki, and . Morikawa, Journal of Solid State Chemistry, vol.12, pp.100-105, 1994.

J. H. Voorhoeve-;-r and . Voorhoeve, In Advanced Materials in Catalysis, p.129, 1977.

D. D. Wei-;-m, Y. Wei, S. Teraoka, and . Kagawa, Materials Research Bulletin, vol.35, pp.521-530, 2000.

;. Y. Wu, T. Wu, B. Yu, C. Dou, X. Wang et al., Journal of Catalysis, vol.120, pp.88-107, 1989.

;. X. Wu, L. Wu, D. Xu, and . Weng, Catalysis Today, vol.90, pp.199-206, 2004.

]. Y. Wu-2012, X. Wu, C. Ni, C. Beaurain, P. Dujardin et al., Applied Catalysis B: Environmental, vol.125, pp.149-157, 2012.

J. Yang, R. Li, and J. Zhou, Journal of Alloys and Compounds, vol.508, pp.301-308, 2010.

Y. Yang, R. Zhang, B. Chen, N. Bion, D. Duprez et al., Journal of Catalysis, vol.295, pp.45-58, 2012.

;. Y. Yi, H. Yi, B. Liu, Z. Chu, L. Qin et al., Chemical Engineering Journal, vol.369, pp.511-521, 2019.

S. Yoon, J. S. Yoon, Y. Lim, B. H. Choi, and H. J. Hwang, International Journal of Hydrogen Energy, vol.39, pp.7955-7962, 2014.

F. Haijuan-zhan, C. Li, N. Xin, F. Zhao, W. Xiao et al., Applied Catalysis B: Environmental, vol.145, pp.220-233, 2006.

R. Zhang-;-b]-runduo, A. Zhang, H. Villanueva, S. Alamdari, ;. R. Kaliaguine et al., Applied Catalysis A: General, Journal of Molecular Catalysis A, vol.307, pp.22-34, 2006.

. Zhang-;-runduo, H. Zhang, S. Alamdari, and . Kaliaguine, Applied Catalysis A: General, vol.340, pp.140-151, 2008.

. Zhang-2012]-lili, Y. Zhang, C. Nie, J. Hu, and . Qu, Applied Catalysis B: Environmental, vol.125, pp.418-424, 2012.

J. Zhang, D. Zhang, Q. Tan, X. Meng, Z. Weng et al., Applied Catalysis B: Environmental, vol.92, pp.240-246, 2009.

;. G. Chen, W. T. Chen, C. T. Chou, and . Yeh, Applied Catalysis A: General, vol.8, pp.389-397, 1983.

P. ;. Dacquin, M. Dacquin, C. R. Cabié, C. Henry, C. Lancelot et al., Journal of Catalysis, vol.270, pp.299-309, 2010.

P. ;. Dacquin, C. Dacquin, C. Lancelot, P. Dujardin, and . Granger, Journal of Physical Chemistry C, vol.115, pp.1911-1921, 2011.

A. Eyssler, A. Winkler, P. Mandaliev, P. Hug, A. Weidenkaff et al., Eyssler, Applied Catalysis B: Environmental, vol.106, pp.494-502, 2011.

;. P. Granger, J. Granger, C. Lecomte, L. Dathy, G. Leclercq et al., Journal of Catalysis, vol.175, pp.194-203, 1998.

;. P. Granger, L. Granger, J. Delannoy, C. Lecomte, L. Dathy et al., Journal of Catalysis, vol.207, pp.202-212, 2002.

;. P. Granger, P. Granger, G. Malfoy, ;. Leclercq, A. Halasz et al., Applied Catalysis A: General, vol.223, pp.51-63, 1992.

;. W. Huang, Z. Huang, P. Zuo, Z. Han, T. Li et al., Journal of Electron Spectroscopy and Related Phenomena, vol.173, pp.88-95, 2009.

S. S. Kibis-;-l, A. I. Kibis, A. I. Titkov, S. V. Stadnichenko, A. I. Koscheev et al., Applied Surface Science, vol.255, issue.22, pp.9248-9254, 2009.

S. Kibis-;-lidiya, S. Kibis, A. I. Stadnichenko, S. V. Koscheev, V. I. Zaikovskii et al., Journal of Physical Chemistry C, vol.116, issue.36, pp.19342-19348, 2012.

S. S. Kim-;-k, A. F. Kim, N. Gossmann, and . Winograd, Analytical Chemistry, vol.46, issue.2, pp.197-200, 1974.

;. B. Levasseur, S. Levasseur, and . Kaliaguine, Applied Catalysis B: Environmental, vol.88, pp.305-314, 2009.

;. M. Moroseac, . Moroseac, K. Skála, V. Veltruská, I. Matolín et al., Surface Science, vol.566, pp.1118-1123, 2004.

;. H. Muraki, K. Muraki, Y. Yokota, J. Fujitani-;-y.-nishihata, T. Mizuki et al., Applied Catalysis, Nature, vol.48, pp.164-166, 1989.

K. Otto, L. P. Haack, and J. E. Devries, Applied Catalysis B: Environmental, vol.1, issue.1, pp.1-12, 1992.

H. F. Peden-;-c, D. N. Peden, S. J. Belton, and . Schmieg, C. Dujardin. Applied Catalysis B: Environmental, vol.155, pp.167-176, 1995.

V. Shanmugam, R. Zapf, V. Hessel, H. Pennemann, and G. Kolb, Applied Catalysis B: Environmental, vol.226, pp.403-411, 2018.

B. B. Shoynkhorova-;-t, P. A. Shoynkhorova, D. I. Simonov, P. V. Potemkin, V. D. Snytnikov et al., Applied Catalysis B: Environmental, vol.237, pp.237-244, 2018.

]. K. Simmance-2019, D. Simmance, W. Thompsett, B. Wang, and . Thiebaut, Catalysis Today, vol.320, pp.40-50, 2019.

M. M. Slavinskaya-;-e, O. A. Slavinskaya, R. V. Stonkus, A. S. Gulyaev, V. I. Ivanova et al., A.I. Boronin. Applied Catalysis A:General, vol.401, pp.83-97, 2011.

]. Y. Sohn-2010, D. Sohn, K. T. Pradhan, and . Leung, ACS Nano, vol.4, issue.9, pp.5111-5120, 2010.

V. V. Yentekakis-;-i, G. Yentekakis, M. Goula, I. Hatzisymeon, G. Betsi-argyropoulou et al., Applied Catalysis B: Environmental, vol.243, pp.490-501, 2019.

;. R. Zhang, H. Zhang, S. Alamdari, and . Kaliaguine, Journal of Catalysis, vol.242, pp.241-253, 2006.

J. Zhang, D. Zhang, Q. Tan, X. Meng, Z. Weng et al., Applied Catalysis B: Environmental, pp.18-26, 2015.

B. Zhao, Q. Y. Wang, G. F. Li, R. X. Zhou, ;. Zhao et al., Metallic dispersion of rhodium measured by H 2 chemisorption analysis Catalyst Rh dispersion (%) Metallic Surface Area, oxygen mobility. Clearly, rhodium and palladium exhibit opposite behavior. Table 9, vol.508, pp.338-349, 2010.

. Rh, , pp.10-13

, Catalytic reduction performance of iron-based perovskite solid ABO 3 (A=La, Ca; B= Fe, Mn) +0.1 wt.%Rh. Grey star solid line: commercial reference catalyst( ? ); black circle solid line: LaFeO 3 ( ? )

, %Rh(?); green diamond dash line: La 0.6 Ca 0.2 Fe 0.8 Mn 0.2 O 3 +0.1 wt.%Rh(?)

, In the temperature range of 300-500°C typical of the operating temperature in the real TWC converter, a maximum NO and on Rh/La 0.6 Ca 01 Fe 0.8 Mn 0.2 O 3 and Rh/La 0.6 Ca 0.2 Fe 0.8 Mn 0.2 O 3 in the return test, Rh-loaded perovskites exhibits better conversion in terms of NO reduction in the first and return stoichiometric test (Fig. 9.5.)

, Grey star solid line: N 2 selectivity of commercial reference catalyst (?), vol.2

, ); green barred square dash line: N 2 selectivity of Rh/La 0.6 Ca 0

, ); grey eight-spoked asterisk solid line: N 2 O selectivity of commercial reference catalyst(?); orange up-shaded circle dot line: N 2 O selectivity of Rh/La 0.6 Ca 0.1 Fe 0.8 Mn 0.2 O 3 (?); green up-shaded circle dot line: N 2 O selectivity of Rh/La 0.6 Ca 0.2 Fe 0.8 Mn 0.2 O 3 (?); blue up-shaded circle dot line: N 2 O selectivity of Rh/La 0.6 Ca 0.4 Fe 0.8 Mn 0.2 O 3 (?); grey multiplication sign (big mark) solid line: NH 3 selectivity of commercial reference catalyst(×); orange down-shaded circle (big mark) dash line: NH 3 selectivity of Rh/La 0.6 Ca 0.1 Fe 0.8 Mn 0.2 O 3 (?); green down-shaded circle (big mark) dash line: NH 3 selectivity of Rh/La 0.6 Ca 0

J. K. Acres-;-g, B. Acres, and . Harrison, Topics in Catalysis, vol.28, pp.3-11, 2004.

R. Burch, M. J. Hayes-;-guochang-chen, X. Zhang, C. Guo, and G. Yuan, Journal of Molecular Catalysis A: Chemical, vol.100, pp.1384-1390, 1995.

K. K. Cho-;-b and . Cho, Journal of Catalysis, vol.148, pp.697-708, 1994.

S. Cimino, G. Landi, and L. Lisi, Catalysis Today, vol.117, pp.454-461, 2006.

A. Eyssler, A. Winkler, and O. Safonova, Eyssler 2012, vol.24, pp.1864-1875, 2012.

M. Fernandes-;-daniela and M. Fernandes, Arnaldo Alcover Neto. Chemical Engineering Journal, vol.160, pp.85-92, 2010.

N. Guilhaume and M. Primet, Journal of Catalysis, vol.165, pp.197-204, 1997.

B. Katz, B. Michael, S. Katz, Y. Zhang, and . Duan, Journal of Catalysis, vol.293, pp.145-148, 2012.

J. J. Kip-;-b, E. G. Kip, J. H. Hermans, N. M. Van-wolput, J. Hermans et al., Applied Catalysis, vol.35, pp.109-139, 1987.

Y. Lu, ;. Lu, A. Eyssler, and E. H. Otal, Catalysis Today, vol.208, pp.42-47, 2013.

A. Malamis-;-sotirios, A. Malamis, R. J. Harrington, M. B. Katz, ;. Nishihata et al., J. Nováková, Applied Catalysis B: Environmental, vol.258, pp.445-457, 2001.

;. M. Pirez-engelmann, P. Pirez-engelmann, L. Granger, . G. Leclercq, and . Leclercq, Topics in Catalysis, vol.30, pp.59-64, 2004.

E. M. Pocoroba-;-eugenia-pocoroba, S. G. Johansson, and . Järås, Catalysis Today, vol.59, pp.179-189, 2000.

Z. Say, M. Dogac, and E. I. Vovk, Applied Catalysis B: Environmental, pp.51-61, 2014.

;. V. Schünemann, H. Schünemann, G. D. Treviño, D. C. Lei, W. M. Tomczak et al., Journal of Catalysis, vol.153, pp.144-157, 1995.

Q. Su, L. Xie, and Y. Li, Canadian Journal of Chemical Engineering, vol.92, pp.1579-1586, 2014.

;. H. Tanaka, I. Tanaka, M. Tan, M. Uenishi, K. Kimura et al., Topics in Catalysis, vol.16, pp.63-70, 2001.

;. H. Tanaka, M. Tanaka, N. Taniguchi, and . Kajita, Topics in Catalysis, pp.389-396, 2004.

]. H. Tanaka-;-a, M. Tanaka, M. Taniguchi, N. Uenishi, I. Kajita et al., Angewandte Chemie Int. Ed, vol.45, pp.5998-6002, 2006.

]. H. Tanaka-;-b, M. Tanaka, M. Uenishi, and . Taniguchi, Catalysis Today, vol.117, pp.321-328, 2006.

H. Treviño, G. D. Lei, W. M. Sachtler, ;. Twagirashema, M. Pirez-engelmann et al., Journal of Catalysis, vol.154, pp.100-105, 1995.

]. I. Twagirashema, M. Frere, L. Gengembre, C. Dujardin, and P. Granger, Topics in Catalysis, vol.42, pp.171-176, 2007.

V. V. Twigg-;-m and . Twigg, Philosophical Transactions: Mathematical, Physical and Engineering Sciences, vol.363, pp.1013-1033, 2005.

V. V. Twigg-;-m and . Twigg, Applied Catalysis B: Environmental, vol.70, pp.2-15, 2007.

G. Tyuliev, D. Panayotov, I. Avramova, and D. Stoichev, Ts. Marinova. Materials Science and Engineering: C Materials for Biological Applications, vol.23, pp.117-121, 2003.

. Wei-;-xun, P. Wei, R. Hug, and . Figi, Applied Catalysis B: Environmental, vol.94, pp.27-37, 2010.

P. P. Zhdanov-;-v, B. Zhdanov, and . Kasemo, Surface Science Reports, vol.29, pp.31-90, 1997.

C. ;. A=la and . B=-fe, Grey star solid line(?):commercial reference catalyst; black circle solid line: LaFeO 3 (?); magenta downward triangle solid line: La 0.7 Fe 0.8 Cu 0.2 O 3 (?); copper (A=La, Ca; B= Fe, Cu) black circle: LaFeO 3 ; red circle: La 0.7 FeO 3 ; ABO 3 (A=La, Ca; B= Fe, Cu) +0.5 wt.%Pd. Grey star solid line(?):commercial reference catalyst, Catalytic oxidation performance of iron-based perovskite solid ABO 3

, N 2 selectivity and yield in stoichiometric atmosphere of iron-based perovskite solid ABO 3 (A=La, Ca; B= Fe, Cu) iron-based perovskite solid ABO 3

. B=-fe, Cu) +0.1 wt.%Rh. Grey star solid line: commercial reference catalyst( ? )

, black hollow circle dash line: .%Rh( ? )

, Selectivity of N 2 , N 2 O and NH 3 in rich atmosphere of iron-based perovskite solid ABO 3 (A=La, Ca