[1] | M.J. Song, M.W. Shin, Appl. Surf. Sci., 320(2014), pp. 435-440 | [2] | Y.G. Li, M. Gong, Y.Y. Liang, J. Feng, J.E. Kim, H.L. Wang, G.S. Hong, B. Zhang, H.J. Dai, Nat. Commun., 4(2013), p. 1805 | [3] | J.S. Lee, S.T. Kim, R.G. Cao, N.S. Choi, M.L. Liu, K.T. Lee, J. Cho, Adv. Energy Mater., 1(2011), pp. 34-50 | [4] | A.J. Appleby, M. Jacquier, J. Power Sources, 1(1976), pp. 17-34 | [5] | A.K. Thapa, B. Pandit, H.S. Paudel, R. Thapa, S. Ida, Electrochim. Acta, 127(2014), pp. 410-415 | [6] | T. Wang, M. Kaempgen, P. Nopphawan, G. Wee, S. Mhaisalkar, M. Srinivasan, J. Power Sources, 195(2010), pp. 4350-4355 | [7] | Q.Z. Fang, W.X. Liu, Y.R. Chen, Mater. Sci. Eng., 26(2003), pp. 67-75(in Chinese) | [8] | M.D. Paster, R.K. Ahluwalia, G. Berry, A. Elgowainy, S. Lasher, K. McKenney, M. Gardine, Int. J. Hydrogen Energy, 36(2011), pp. 14534-14551 | [9] | W.G. Colella, S.H. Schneider, D.M. Kammen, A. Jhunjhunwala, N. Teo, J. Fuel Cell Sci. Technol., 8(2011), pp. 1-16 | [10] | M. Winter, R.J. Brodd, Chem. Rev., 104(2004), pp. 4245-4269 | [11] | F.Y. Cheng, Y. Su, J. Liang, Z.J. Tao, J. Chen, Chem. Mater., 22(2010), pp. 898-905 | [12] | T.H. Yang, S. Venkatesan, C.H. Lien, J.L. Chang, J.M. Zen, Electrochim. Acta, 56(2011), pp. 6205-6210 | [13] | K.A. Friedrich, J. Kallo, J. Schirmer, G. Schmitthals, J. Electrochem. Soc., 25(2009), pp. 193-202 | [14] | G.R. Vallet, M. Saballus, G. Schmithals, J. Schirmer, J. Kallo, K.A. Friedric, Energy Environ. Sci., 3(2010), pp. 1458-1468 | [15] | S.H.H.Yang, H. Knickle, J. Power Sources, 112(2002), pp. 162-173 | [16] | H. Wu, Design and optimization of pivotal materials in electrolytic aluminum metallurgy and aluminum air battery industry chain using large-Scale non-Grid-Connected wind. Power World Non-Grid-Connected Wind Power and Energy Conference, 99, Nanjing(2010), pp. 245-248 | [17] | Z.A. Zhuk, E.A. Sheindlin, V.B. Kleymenov, I.E. Shkolnikov, Y.M. Lopatin, J. Power Sources, 157(2006), pp. 921-926 | [18] | S. Cimino, L. Lisi, S. De Rossi, M. Faticanti, P. Porta, Appl. Catal. B: Environ., 43(2003), pp. 397-406 | [19] | V.B. Aubé, J. Belkouch, L. Monceaux, Appl. Catal. B: Environ., 43(2003), pp. 175-186 | [20] | V. Szabo, M. Bassir, A. Van Neste, S. Kaliaguine, Appl. Catal. B: Environ., 37(2002), pp. 175-180 | [21] | R. Hammami, S.B. A?ssa, H. Batis, Appl. Catal. A: Gen., 353(2009), pp. 145-153 | [22] | G. Sinquin, C. Petit, S. Libs, J.P. Hindermann, A. Kiennemann, Appl. Catal. B: Environ., 32(2001), pp. 37-47 | [23] | G. Sinquin, C. Petit, S. Libs, J.P. Hindermann, A. Kiennemann, Appl. Catal. B: Environ., 27(2000), pp. 105-115 | [24] | G. Sinquin, C. Petit, J.P. Hindermann, A. Kiennemann, Catal. Today, 70(2001), pp. 183-196 | [25] | B. Levasseur, S. Kaliaguine, J. Solid State Chem., 181(2008), pp. 2953-2963 | [26] | M.C.álvarez-Galván, V.A. de la P?na O’Shea, G. Arzamendi, B. Pawelec, L.M. Gandía, J.L.G. Fierro, Appl. Catal. B: Environ., 92(2009), pp. 445-453 | [27] | X. Wei, P. Hug, R. Figi, M. Trottmann, A. Weidenkaff, D. Ferri, Appl. Catal. B: Environ., 94(2010), pp. 27-37 | [28] | M.A. Pena, J.L.G.Fierro, Chem. Rev., 101(2001), pp. 1981-2017 | [29] | H.F. Lu, H.F. Huang, H.Y. Liu, Y.F. Chen, H.Z. Liu, J. Chem. Ind. Eng., 59(2008), pp. 892-897(in Chinese) | [30] | Y. Liu, H. Dai, Y. Du, J. Deng, L. Zhang, Z. Zhao, C.T. Au, J. Catal., 287(2012), pp. 149-160 | [31] | T. Tabari, D. Singh, A. Calisan, Ceram. Int., 43(2017), pp. 15970-15977 | [32] | Y.C. Lee, P.Y. Peng, W.S. Chang, C.M. Huang, J. Taiwan Inst. Chem. E, 45(2014), pp. 2334-2339 | [33] | W. St?ber, A. Frink, J. Colloid. Interf. Sci., 26(1968), pp. 62-69 | [34] | Q. Zhou, P. Dong, B.Y. Cheng, China Part. 1(2003), pp. 124-130(in Chinese) | [35] | S. Devaraj, N. Munichandraiah, J. Phys. Chem. C, 112(2008), pp. 4406-4417 | [36] | H. Zhang,Master Thesis(in Chinese). Yunnan University (2015) |
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