Estudi de l'estabilitat tèrmica de l'espinel·la NiCo2O4 mesoporosa

Els materials mesoporos (amb una mida controlada de porus entre els 2 i 50 nm) tenen com a tret diferencial la seva gran superfície específica, la qual els fa aptes per a aplicacions molt diverses. L’espinel·la de NiCo2O4 és aplicable com a sensor de gasos, com a catalitzador de les reaccions d’evolució i reducció d’oxigen o com a elèctrode en electrosíntesi inorgànica i orgànica. Hom preveu que l’obtenció de NiCo2O4 mesoporós podria ampliar el ventall d’aplicacions d’aquest material o millorar les prestacions de les ja existents. L’objectiu del projecte és el de determinar el rang de temperatures d’ús dels dispositius que incorporin l’espinel·la de NiCo2O4 mesoporosa. Per tal d’analitzar l’estabilitat tèrmica d’aquest material, es realitza un procés de síntesi complet de mostres d’aquestes característiques. S’inicia un procés d’obtenció de nanomotlles de sílice amb mesoestructura SBA-15 i KIT-6 pel mètode de soft-templating. Aquests templates es validen per TEM i EDX i són els emprats per a la síntesi de mostres de NiCo2O4 per hard-templating. Un cop sintetitzades les mostres de NiCo2O4 SBA-15 i KIT-6, es procedeix a validar la qualitat de la seva mesoestructura per TEM, i la seva composició química per EDX i de fases per XRD. Aquestes dues mostres as-prepared passen a ser sotmeses a un seguit de tractaments tèrmics a temperatures de 400ºC, 450ºC, 500ºC, 550ºC i 600ºC. Això permetrà observar per TEM el col·lapse de la mesoestructura i per XRD serà possible detectar i quantificar la segregació de NiO que podria malmetre les propietats del material en qualsevol de les seves aplicacions. Segons l’aparició d’aquests dos efectes negatius, es determinarà una temperatura crítica de funcionalitat del NiCo2O4 mesoporós. També es farà una anàlisi termogravimètrica dels precursors emprats per a la síntesi del NiCo2O4 confinats en templates de sílice: nitrat de cobalt i nitrat de níquel per separat, i una mescla d’ambdós amb proporcions 0,5:1 Ni(II):Co(II). Es podrà observar en quines temperatures tenen lloc el processos físicoquímics patits per aquests precursors, quan té lloc la formació dels òxids pertinents i com afecta la presència dels nanomotlles a cada un d’ells. Finalment, aquest projecte també incideix en l’estudi de la reproductibilitat per hard-templating de l’espinel·la de FeCo2O4, un material força desconegut en format mesoporós. I la caracterització de les mostres as-prepared per TEM, EDX i XRD.

Obtenção de óxidos a base de níquel e cobalto para reação de oxidação parcial do metano

Nickel-based catalysts supported on alumina have been widely used in various reactions to obtain synthesis gas or hydrogen. Usually, higher conversion levels are obtained by these catalysts, however, the deactivation by coke formation and sintering of metal particles are still problems to be solved. Several approaches have been employed in order to minimize these problems, among which stands out in recent years the use of additives such as oxides of alkali metals and rare earths. Similarly, the use of methodologies for the synthesis faster, easier, applicable on an industrial scale and to allow control of the microstructural characteristics of these catalysts, can together provide the solution to this problem. In this work, oxides with spinel type structure AB2O4, where A represents divalent cation and B represents trivalent cations are an important class of ceramic materials investigated worldwide in different fields of applications. The nickel cobaltite (NiCo2O4) was oxides of spinel type which has attracted considerable interest due to its applicability in several areas, such as chemical sensors, flat panel displays, optical limiters, electrode materials, pigments, electrocatalysis, electronic ceramics, among others. The catalyst precursor NiCo2O4 was prepared by a new chemical synthesis route using gelatine as directing agent. The polymer resin obtained was calcined at 350°C. The samples were calcined at different temperatures (550, 750 and 950°C) and characterized by X ray diffraction, measurements of specific surface area, temperature programmed reduction and scanning electron microscopy. The materials heat treated at 550 and 750°C were tested in the partial oxidation of methane. The set of techniques revealed, for solid preparations, the presence of the phase of spinel-type structure with the NiCo2O4 NixCo1-xO solid solution. This solid solution was identified by Rietveld refinement at all temperatures of heat treatment. The catalyst precursors calcined at 550 and 750°C showed conversion levels around 25 and 75%, respectively. The reason H2/CO was around 2 to the precursor treated at 750°C, proposed reason for the reaction of partial oxidation of methane, one can conclude that this material can be shown to produce synthesis gas suitable for use in the synthesis Fischer-Tropsch process

Obtenção de óxidos a base de níquel e cobalto para reação de oxidação parcial do metano

Nickel-based catalysts supported on alumina have been widely used in various reactions to obtain synthesis gas or hydrogen. Usually, higher conversion levels are obtained by these catalysts, however, the deactivation by coke formation and sintering of metal particles are still problems to be solved. Several approaches have been employed in order to minimize these problems, among which stands out in recent years the use of additives such as oxides of alkali metals and rare earths. Similarly, the use of methodologies for the synthesis faster, easier, applicable on an industrial scale and to allow control of the microstructural characteristics of these catalysts, can together provide the solution to this problem. In this work, oxides with spinel type structure AB2O4, where A represents divalent cation and B represents trivalent cations are an important class of ceramic materials investigated worldwide in different fields of applications. The nickel cobaltite (NiCo2O4) was oxides of spinel type which has attracted considerable interest due to its applicability in several areas, such as chemical sensors, flat panel displays, optical limiters, electrode materials, pigments, electrocatalysis, electronic ceramics, among others. The catalyst precursor NiCo2O4 was prepared by a new chemical synthesis route using gelatine as directing agent. The polymer resin obtained was calcined at 350°C. The samples were calcined at different temperatures (550, 750 and 950°C) and characterized by X ray diffraction, measurements of specific surface area, temperature programmed reduction and scanning electron microscopy. The materials heat treated at 550 and 750°C were tested in the partial oxidation of methane. The set of techniques revealed, for solid preparations, the presence of the phase of spinel-type structure with the NiCo2O4 NixCo1-xO solid solution. This solid solution was identified by Rietveld refinement at all temperatures of heat treatment. The catalyst precursors calcined at 550 and 750°C showed conversion levels around 25 and 75%, respectively. The reason H2/CO was around 2 to the precursor treated at 750°C, proposed reason for the reaction of partial oxidation of methane, one can conclude that this material can be shown to produce synthesis gas suitable for use in the synthesis Fischer-Tropsch process