. . "Vztah mezi strukturou a aktivitou Ni-(Mg)-Al a Ni-(Mg)-Mn sm\u011Bsn\u00FDch oxid\u016F p\u0159ipraven\u00FDch z hydrotalcit\u016F v reakci rozkjladu N2O"@cs . "Structure-Activity Relationship in the N2O Decomposition over Ni-(Mg)-Al and Ni-(Mg)-Mn Mixed Oxides Prepared from Hydrotalcite-like Precursors"@en . . "1381-1169" . "Kovanda, F." . "N2O decomposition; mixed oxide catalyst; layered double hydroxides"@en . . "248" . . . "1-2" . . "2"^^ . "RIV/67985858:_____/06:00055172!RIV07-AV0-67985858" . . "Vztah mezi strukturou a aktivitou Ni-(Mg)-Al a Ni-(Mg)-Mn sm\u011Bsn\u00FDch oxid\u016F p\u0159ipraven\u00FDch z hydrotalcit\u016F v reakci rozkjladu N2O"@cs . "NL - Nizozemsko" . "Obalov\u00E1, L." . "N2O decomposition over catalysts prepared by thermal decomposition of Ni-(Mg)-MIII (MIII = Al or Mn) hydrotalcite-like precursors was studied. Ni-Al and Mg-Mn catalysts exhibited high catalytic activity but catalysts containing both transition metal cations (i.e. Ni and Mn) were less active. Their lower activities were explained by different oxidation states of manganese and nickel in the mixed oxide systems. The presence of oxygen in reaction mixture caused inhibition of the reaction rate to the certain oxygen pressure, while at higher oxygen pressure the N2O conversion is nearly constant. Relationships between the observed activity and the amount of reducible components determined from TPR experiments and the portion of strong basic sites determined from TPD experiments were discussed." . . . "Val\u00E1\u0161kov\u00E1, M." . "Structure-Activity Relationship in the N2O Decomposition over Ni-(Mg)-Al and Ni-(Mg)-Mn Mixed Oxides Prepared from Hydrotalcite-like Precursors" . "502014" . "210;219" . "20"^^ . . . . "N2O decomposition over catalysts prepared by thermal decomposition of Ni-(Mg)-MIII (MIII = Al or Mn) hydrotalcite-like precursors was studied. Ni-Al and Mg-Mn catalysts exhibited high catalytic activity but catalysts containing both transition metal cations (i.e. Ni and Mn) were less active. Their lower activities were explained by different oxidation states of manganese and nickel in the mixed oxide systems. The presence of oxygen in reaction mixture caused inhibition of the reaction rate to the certain oxygen pressure, while at higher oxygen pressure the N2O conversion is nearly constant. Relationships between the observed activity and the amount of reducible components determined from TPR experiments and the portion of strong basic sites determined from TPD experiments were discussed."@en . . "P(GA104/04/2116), P(GA106/02/0523), P(GA106/05/0366), Z(AV0Z40720504), Z(MSM6046137302), Z(MSM6198910016)" . . . "[C3A01CF7FF3C]" . "Structure-Activity Relationship in the N2O Decomposition over Ni-(Mg)-Al and Ni-(Mg)-Mn Mixed Oxides Prepared from Hydrotalcite-like Precursors"@en . "Pacultov\u00E1, K." . . . "Byl studov\u00E1n rozklad N2O na katalyz\u00E1torech p\u0159ipraven\u00FDch tepeln\u00FDm rozkladem Ni-(Mg)-MIII (MIII=Al nebo Mn) hydrotalcit\u016F. Ni-Al a Mg-Mn katalyz\u00E1tory vyk\u00E1zaly vysokou aktivitu, ale ty katalyz\u00E1tory obsahuj\u00EDc\u00ED oba p\u0159echodov\u00E9 kovy (Ni a Mn) byly m\u00E9n\u011B aktivn\u00ED. Jejich ni\u017E\u0161\u00ED aktivita byla vysv\u011Btlena r\u016Fzn\u00FDm oxida\u010Dn\u00EDm stavem Mn a Ni ve sm\u011Bsn\u00FDch oxidick\u00FDch syst\u00E9mech. Vztahy mezi pozorovanou aktivitou a mno\u017Estv\u00EDm redukovateln\u00FDch slo\u017Eek stanoven\u00FDch z TPR experiment\u016F a pod\u00EDlem siln\u011B kysel\u00FDch b\u00E1sick\u00FDch center byl diskutov\u00E1n."@cs . . "Journal of Molecular Catalysis A: Chemical" . "RIV/67985858:_____/06:00055172" . . "Balab\u00E1nov\u00E1, Jana" . "Structure-Activity Relationship in the N2O Decomposition over Ni-(Mg)-Al and Ni-(Mg)-Mn Mixed Oxides Prepared from Hydrotalcite-like Precursors" . "Jir\u00E1tov\u00E1, Kv\u011Bta" . . "6"^^ . .