Synthesis, characterization, and properties of pillared layered metal oxides and phosphates /

Layered materials are a unique as well as versatile class of

Bibliographic Details
Main Author: Cahill, Roy Allan
Format: Thesis Book
Language:English
Published: [Place of publication not identified] : [publisher not identified] ; 1996.
Subjects:
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Description
Summary:Layered materials are a unique as well as versatile class of
compounds which by themselves can act as catalytic supports
and ion exchange materials. They are two-dimensional
compounds with their layers typically held together by either
ionic or van der Waals interactions. It is the weak cohesive
interactions between the individual layers which allows for
the unique chemistry of these materials: i.e. their ability
to incorporate guest molecules or clusters into their
interlayer regions. Once intercalated or exchanged inbetween
the layers of the host compound, certain types of guest
molecules can convert the two-dimensional structure to a
three-dimensional structure with new properties. In the
following, three types of layered materials will be
investigated: phyllosilicates, titanates, and zirconium
bismonohydrogen phosphate (ZrP). Synthesis methods to pillar
these compounds using inorganic polyatomic clusters, which
are used to create porous materials that can be used as
either catalyst or ion exchanges, will be investigated as
well as the characterization of these new compounds. Also
under study will be new ways at further functionalizing the
final pillared products to enhance existing characteristics
or create new ones. In the case of aluminum pillared
montmorillonite, thermally stable Brbnsted acid sites can be
incorporated onto the aluminum oxide pillars by the reaction
of the pillared compound with solutions containing phosphate.
This is evidenced by MAS-NMR and IR studies of pyridine
adsorbed onto the phosphated material. The thermal stability
of these incorporated phosphate groups is quite similar to
the phosphate groups found in silica pillared zirconium
phosphate which was also examined. However, the
montmorillonite and ZrP materials differ not only in the type
of pillaring species but also in pillar density which is a
function of layer charge. Ideas of how layer charge will
affect the distribution of pillars in a material was examined
using a series of layer titanium oxides which possess
increasing layer charge while maintaining similar structural
properties. The results of this study will be presented.
Finally, it will be shown that the ion exchange properties of
a layered titanate can be controlled by slight alterations in
the synthesis procedure.
Item Description:Vita.
"Major Subject: Chemistry".
Physical Description:xvi, 220 leaves : illustrations ; 28 cm.
Issued also on microfiche from University Microfilms Inc.
Bibliography:Includes bibliographical references.