Porous structure and particle size of silica and hydrotalcite catalyst precursors
Publication date
1993
Authors
Titulaer, M.K.
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Document Type
Dissertation
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Abstract
The subject of this thesis is the control of the porous structure of catalyst bodies.
The first part deals with silica, that can be utilized as catalyst support with many
industrially important catalytic reactions. The second part of the thesis deals with the
preparation and characterization of solid catalysts having a tubular or a platelet
microstructure. The success of zeolites in catalytic reactions is due to the fact that the
shape of the porous structure can be controlled on an atomic scale. The possibility to
adapt also the surface composition of zeolites has led to important catalytic
possibilities. Besides zeolites other minerals have structures that are interesting for
catalytic applications. Natural minerals usually are contaminated, which renders
utilization for catalytic purposes difficult, in spite of the favourable price. As with
zeolites synthetic minerals therefore have to be preferred. Synthetic chrysotile will be
studied, mainly to calibrate the porometric technique. The preparation and
characterization of layered structures will subsequently be dealt with. Structures of
platelets the separation of which can be controlled by insertion of suitable charged
clusters ("pillaring") are presenting interesting catalytic properties.