A family of Ce-doped LaCoO_(3) perovskites are presented as possible catalysts for Cl-VOCs elimination.These materials with different contents of Ce were obtained through the citrate and the reactive grinding methods....A family of Ce-doped LaCoO_(3) perovskites are presented as possible catalysts for Cl-VOCs elimination.These materials with different contents of Ce were obtained through the citrate and the reactive grinding methods.The insertion of Ce in the original perovskite structure favours the presence of Co^(2+)/Co^(3+) and Ce^(3+)/Ce^(4+) redox pairs and a higher content of oxygen vacancies that enhances the catalytic performance in chlorobenzene combustion based on differential kinetics studies.The family obtained by the grinding method presents a performance as high as that synthesized by citrate method.Thus,the reactive grinding is a feasible green chemistry alternative to obtain a catalyst with the same performance as that obtained from traditional methods.Finally,the stability of samples was evaluated under total combustion reaction conditions showing an excellent activity during 45 h time on stream.展开更多
基金The financial support from Universidad Nacional de San Luis,CONICET,ANPCyT。
文摘A family of Ce-doped LaCoO_(3) perovskites are presented as possible catalysts for Cl-VOCs elimination.These materials with different contents of Ce were obtained through the citrate and the reactive grinding methods.The insertion of Ce in the original perovskite structure favours the presence of Co^(2+)/Co^(3+) and Ce^(3+)/Ce^(4+) redox pairs and a higher content of oxygen vacancies that enhances the catalytic performance in chlorobenzene combustion based on differential kinetics studies.The family obtained by the grinding method presents a performance as high as that synthesized by citrate method.Thus,the reactive grinding is a feasible green chemistry alternative to obtain a catalyst with the same performance as that obtained from traditional methods.Finally,the stability of samples was evaluated under total combustion reaction conditions showing an excellent activity during 45 h time on stream.
