1 |
S. A. C. Carabineiro, A. V. Matveev, V. V. Gorodetskii, and B. E. Nieuwenhuys, Selective oxidation of ammonia over Ru (0001), Surf. Sci., 555, 83 (2004).
DOI
|
2 |
H. T. Jang, Y. K. Park, Y. S. Ko, and W. S. Cha, Selective Catalytic Oxidation of Ammonia in the Presence of Manganese Catalysts, Korean Chem. Eng. Res., 46, 498 (2008).
|
3 |
J. Y. Lee, S. B. Kim, and S. C. Hong, Characterization and Reactivity of Natural Manganese ore Catalysts in the Selective Catalytic Oxidation of Ammonia to Nitrogen, Chemosphere, 50, 1115 (2003).
DOI
|
4 |
M. J. Lippits, A. C. Gluhoi, and B. E. Nieuwenhuys, A comparative study of the selective oxidation of to over gold, silver and copper catalysts and the effect of addition of and CeOx, Catal. Today, 137, 446 (2008).
DOI
|
5 |
R. Q. Long and R. T. Yang, Selective Catalytic Oxidation of Ammonia to Nitrogen over Prepared with a Sol-Gel Method, J. Catal., 207, 158 (2002).
DOI
|
6 |
S. Lenihan and T. Curtin, The selective oxidation of ammonia using copper-based catalysts: The effects of water, Catal. Today, 145, 85 (2009).
DOI
|
7 |
S. D. Lin, A. C. Gluhoi, and B. E. Nieuwenhuys, Ammonia oxidation over -activity, selectivity and FTIR measurements Original Research Article, Catal. Today, 90, 3 (2004).
DOI
|
8 |
J. Petryk and E. Kolakowska, Cobalt oxide catalysts for ammonia oxidation activated with cerium and lanthanum, Appl. Catal. B: Environ., 24, 121 (2000).
DOI
|
9 |
B. M. Reddy, A. Khan, Y. Yamada, T. Kobayashi, and S. Loridant, J. Volta, Structural Characterization of and Catalysts by Raman and XPS Techniques, J. Phys. Chem., 107, 5162 (2003).
|
10 |
M. Casapu, O. Krocher, and M. Elsener, Screening of doped catalysts for low-temperature NO-SCR, Appl. Catal. B: Environ., 88, 413 (2009).
DOI
|
11 |
J. C. Lou, C. M. Hung, and S. F. Yang, Selective Catalytic Oxidation of Ammonia over Copper-Cerium Composite Catalyst, J. Air & Waste Manage. Assoc., 54, 68 (2004).
DOI
|
12 |
K. K. Kranthi, A. Vital, J. P. Dellemann, K. Michalow, T. Graule, D. Fem, and A. Baiker, Flame-made nanoparticles: Relation between surface acidity, structure and photocatalytic activity, Appl. Catal. B: Environ., 79, 53 (2008).
DOI
|
13 |
I. Atribak, B. Azambre, A. B. Lopez, and A. Garcia-Garcia, Effect of NOx adsorption/desorption over ceria-zirconia catalysts on the catalytic combustion of model soot, Appl. Catal. B: Environ., 92, 126 (2009).
DOI
|
14 |
S. Watanabe, X. Ma, and X. Song, Characterization of Structural and Surface Properties of Nanocrystalline Mixed Oxides by XRD, XPS, TPR, and TPD, J. Phys. Chem. C, 113, 14249 (2009).
DOI
|
15 |
X. Gao, Y. Jiang, Y. Zhong, Z. Luo, and K. Cen, The activity and characterization of catalysts prepared by the sol-gel method for selective catalytic reduction of NO with NH3, J. Hazard. Mater., 174, 734 (2010).
DOI
|
16 |
S. Yang, W. Zhu, X. Wang, and R. Metals, Influence of the structure of , , and supports on the activity of Ru catalysts in the catalytic wet air oxidation of acetic acid, 30, 488 (2011).
DOI
|