The mechanism of crystallization of microporous titanosilicate ETS-10 was investigated by Raman spectroscopy combined with (29)Si magic-angle spinning (MAS) NMR spectroscopy, DFT calculations, and SEM imaging. The formation of three-membered ring species is shown to be the key step in the hydrothermal synthesis of ETS-10. They are formed by means of a complex process that involves the interaction of silicate species in the reaction mixture, which promotes the dissolution of TiO(2) particles. These insights into the mechanism of ETS-10 growth led to the successful development of a new synthesis route to the vanadosilicate AM-6 that involves the use of intermediates that contain three-membered ring species as an initiator
The local structural characteristics of Si and Ti sites in ETS-10 as derived from a combination of h...
10.1016/j.micromeso.2004.08.004Microporous and Mesoporous Materials761-3113-122MIMM
The local structural characteristics of Si and Ti sites in ETS-10 as derived from a combination of h...
The mechanism of crystallization of microporous titanosilicate ETS-10 was investigated by Raman spec...
The mechanism of crystallization of microporous titanosilicate ETS-10 was investigated by Raman spec...
A detailed characterization study on titanosilicate ETS-10 derived from rice husk ash (RHA) as silic...
The titanosilicate ETS-10 has been synthesized from titanosilicate gels in the presence and absence ...
In the present work, the local structure changes of microporous titanosilicate ETS-10 upon treatment...
One of ETS-10 variants, aluminum-substituted ETAS-10 was successfully synthesized with Al/Ti molar r...
The aims of this thesis are the synthesis, structural characterization and the study of catalytic ac...
Microporous titanosilicates and vanadosilicates were synthesised characterized and photoreactivity s...
ETS-10 has attracted considerable attention as a base catalyst. It is desirable to confirm the locat...
ETS-10 has attracted considerable attention as a base catalyst. It is desirable to confirm the locat...
ETS-10 has attracted considerable attention as a base catalyst. It is desirable to confirm the locat...
Recent developments in the use of titanosilicate materials as redox catalysts and ion exchangers hav...
The local structural characteristics of Si and Ti sites in ETS-10 as derived from a combination of h...
10.1016/j.micromeso.2004.08.004Microporous and Mesoporous Materials761-3113-122MIMM
The local structural characteristics of Si and Ti sites in ETS-10 as derived from a combination of h...
The mechanism of crystallization of microporous titanosilicate ETS-10 was investigated by Raman spec...
The mechanism of crystallization of microporous titanosilicate ETS-10 was investigated by Raman spec...
A detailed characterization study on titanosilicate ETS-10 derived from rice husk ash (RHA) as silic...
The titanosilicate ETS-10 has been synthesized from titanosilicate gels in the presence and absence ...
In the present work, the local structure changes of microporous titanosilicate ETS-10 upon treatment...
One of ETS-10 variants, aluminum-substituted ETAS-10 was successfully synthesized with Al/Ti molar r...
The aims of this thesis are the synthesis, structural characterization and the study of catalytic ac...
Microporous titanosilicates and vanadosilicates were synthesised characterized and photoreactivity s...
ETS-10 has attracted considerable attention as a base catalyst. It is desirable to confirm the locat...
ETS-10 has attracted considerable attention as a base catalyst. It is desirable to confirm the locat...
ETS-10 has attracted considerable attention as a base catalyst. It is desirable to confirm the locat...
Recent developments in the use of titanosilicate materials as redox catalysts and ion exchangers hav...
The local structural characteristics of Si and Ti sites in ETS-10 as derived from a combination of h...
10.1016/j.micromeso.2004.08.004Microporous and Mesoporous Materials761-3113-122MIMM
The local structural characteristics of Si and Ti sites in ETS-10 as derived from a combination of h...