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Tetrapod structures

Parallel diffuse reflectance UV (DRUV) and EPR spectroscopic investigations (51,52,54) have provided evidence that the nature of the oxo intermediates formed on contact with H202 depends on the intrinsic local structure and environment of the Ti ions. The tetrapodal structures seem to generate oxo species the concentrations of which correlate with selectivity in the epoxidation of alkenes. [Pg.30]

The higher conversion in the presence of Ti-beta is probably a result of the higher temperature (343 v.v. 323 K). Diffusional constraints cannot account for the observed differences in selectivity. Ti-beta and TS-1 are distinctly more selective than the mesoporous material. Recalling that tetrapodal titanium sites are more predominant in the former two molecular sieves although tripodal titanium sites are the major surface species over the latter mesoporous material (Section II), we infer that the data indicate that high epoxidation selectivity is probably correlated with the presence of tetrapodal structures in these two molecular sieves. This correlation is discussed in Section VI. [Pg.88]

Alivisatos subsequently used higher temperatures for injection and growth to improve the quality of the material prepared [65]. hi a series of recent papers, interesting rod and tetrapodal structures have been grown, especially... [Pg.178]

Three-dimensitmal (3D) 3 Tetrapodal structures, nanoporous systems... [Pg.498]

Parsons T. (1967). Evolution of the nasal structures in the lower Tetrapods. Am Zool 7, 397-413. [Pg.236]

Triply bridging carbonates between three zinc centers have been identified in nine different X-ray structures deposited in the CSD 458,461,465-467 For example, a binuclear ft-OH zinc complex with a tetradentate /V-donor ligand absorbs atmospheric carbon dioxide to a triply bridged carbonate.468 Examples are also known where the metal atoms are in varying coordination environments. The complex cation [Zn3(bipyridine)6(/U3-C03)(H20)2]4+ contains one penta- and two hexacoordinate zinc centers.469 A tetrapodal compartmental ligand forms a tetrameric complex with zinc that contains the carbonate bridging between three of the four zinc centers.470... [Pg.1186]

Tetrapodal Pentadentate Nitrogen Ligands Aspects of Complex Structure and Reactivity Andreas Grohmann... [Pg.654]

Table I illustrates the utility of DRUV-visible data in determining the surface structures involving Ti. Samples of TS-1 were prepared by three different methods or treatments. Samples 1 and 2 were prepared by conventional hydrothermal synthesis and sample 3 by synthesis in a fluoride medium. TS-2 was synthesized as reported (7). At least five bands could be discerned by deconvolution (Fig. 3), at 205, 228, 258, 290, and 330 nm. Band 1 at 205 nm is assigned to tetrahedral, tetrapodal Ti present in TS-1, TS-2, and Ti-beta. Band 5 at 330 nm is assigned to an... Table I illustrates the utility of DRUV-visible data in determining the surface structures involving Ti. Samples of TS-1 were prepared by three different methods or treatments. Samples 1 and 2 were prepared by conventional hydrothermal synthesis and sample 3 by synthesis in a fluoride medium. TS-2 was synthesized as reported (7). At least five bands could be discerned by deconvolution (Fig. 3), at 205, 228, 258, 290, and 330 nm. Band 1 at 205 nm is assigned to tetrahedral, tetrapodal Ti present in TS-1, TS-2, and Ti-beta. Band 5 at 330 nm is assigned to an...
The majority of the titanium ions in titanosilicate molecular sieves in the dehydrated state are present in two types of structures, the framework tetrapodal and tripodal structures. The tetrapodal species dominate in TS-1 and Ti-beta, and the tripodals are more prevalent in Ti-MCM-41 and other mesoporous materials. The coordinatively unsaturated Ti ions in these structures exhibit Lewis acidity and strongly adsorb molecules such as H2O, NH3, H2O2, alkenes, etc. On interaction with H2O2, H2 + O2, or alkyl hydroperoxides, the Ti ions expand their coordination number to 5 or 6 and form side-on Ti-peroxo and superoxo complexes which catalyze the many oxidation reactions of NH3 and organic molecules. [Pg.149]

Significant progress has been achieved in the preceding few years in the study of titanosilicate molecular sieves, especially TS-1, TS-2, Ti-beta, and Ti-MCM-41. In the dehydrated, pristine state most of the Ti4+ ions on the surfaces of these materials are tetrahedrally coordinated, being present in either one of two structures a tetrapodal (Ti(OSi)4) or a tripodal (Ti(OSi)3OH) structure. The former predominates in TS-1, TS-2, and Ti-beta, and the latter is prominent in Ti-MCM-41. The Ti ions are coordinatively unsaturated and act as Lewis acid sites that coordinatively bind molecules such as H20, NH3, CH3CN, and H202. Upon interaction with H202 or H2 + 02, the Ti ions form titanium oxo species. Spectroscopic techniques have been used to identify side-bound hydroperoxo species such as Ti(02H) and superoxo structures such as Ti(02 ) on these catalysts. [Pg.162]

TETRAPODAL PENTADENTATE NITROGEN LIGANDS ASPECTS OF COMPLEX STRUCTURE AND REACTIVITY... [Pg.179]


See other pages where Tetrapod structures is mentioned: [Pg.34]    [Pg.39]    [Pg.64]    [Pg.34]    [Pg.39]    [Pg.64]    [Pg.21]    [Pg.373]    [Pg.34]    [Pg.39]    [Pg.64]    [Pg.34]    [Pg.39]    [Pg.64]    [Pg.21]    [Pg.373]    [Pg.16]    [Pg.25]    [Pg.30]    [Pg.45]    [Pg.72]    [Pg.150]    [Pg.159]    [Pg.436]    [Pg.175]    [Pg.186]    [Pg.490]    [Pg.440]    [Pg.228]    [Pg.16]    [Pg.25]    [Pg.30]    [Pg.45]    [Pg.72]    [Pg.150]    [Pg.159]    [Pg.5587]    [Pg.5589]   
See also in sourсe #XX -- [ Pg.373 ]




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