Composite zeolite catalytic tubular membranes containing rhodium(0) and ruthenium(0) in and on alumina tubes were prepared using the hydrothermal synthesis method termed "multi in situ crystallization" (MISC). The membranes were tested in the partial oxidation of methane to investigate membrane activities. Transition metal-dispersed zeolitic catalytic tubular membranes exhibit a high catalytic surface area, large membrane surface area and high chemical and thermal stabilities. The applicability of these membranes to the partial oxidation reaction is demonstrated.
Influence of zeolite PZC and pH on the immobilization of cytochrome c: a preliminary study regarding the preparation of new biomaterials
Tavolaro A;
2009
Abstract
Composite zeolite catalytic tubular membranes containing rhodium(0) and ruthenium(0) in and on alumina tubes were prepared using the hydrothermal synthesis method termed "multi in situ crystallization" (MISC). The membranes were tested in the partial oxidation of methane to investigate membrane activities. Transition metal-dispersed zeolitic catalytic tubular membranes exhibit a high catalytic surface area, large membrane surface area and high chemical and thermal stabilities. The applicability of these membranes to the partial oxidation reaction is demonstrated.File in questo prodotto:
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