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Titanium-hydrogen bonds

Cremaschi P and Whitten J L 1987 The effect of hydrogen chemisorption on titanium surface bonding Theor. Chim. Acta. 72 485-96... [Pg.2236]

In marked contrast to the above results, double nitrile insertion into both the titanium-alkyl and titanium—vinyl bonds occurs to form the diazatitanacycles 74. Treatment of these titanacycles with dry hydrogen chloride affords the tetrasubstituted pyridine derivatives 75 (Scheme 14.32) [74], On the other hand, 2,3-diphenyltitanacyclobutene reacts with various nitriles to afford the products of mono-insertion, which afford the corresponding unsaturated ketones upon hydrolysis [73,74]. [Pg.494]

Figure 1 shows the FT-1R spectra of samples dispersed in KBr. All the spectra display a strong band at 960 cm 1. This band has been assigned to Si-O-Ti bonds [14] or to Si-OH groups [15, 16]. It is usually taken as the evidence for isomorphous substitution of Si by Ti, but it cannot be used to determine quantitatively the content of titanium into the framework of mesoporous materials [17]. In addition, the broad pattern between 3700 and 3000 cm 1, originated from hydrogen-bonded surface OH groups as well as from adsorbed H20 [18], decreases dramatically in the silylated samples. [Pg.183]

A titanium complex (1) with a salen ligand is an efficient catalyst for the enan-tioselective epoxidation of alkenes with hydrogen peroxide as the terminal oxidant. The participation of a titanium-peroxo species, activated by hydrogen bonding, in the reaction, has been postulated.73... [Pg.99]

The crystal structure of (VI) confirms the presence of a 7r-bonded fulvalene, with hydroxy groups bridging the two titanium atoms, and the THF hydrogen-bonded to the hydrogens of the hydroxy groups (25). [Pg.271]

The structure of the titanium-tartrate derivatives has been determined,25,26,31 37 and based on these observations together with the reaction selectivity, a mechanistic explanation has been proposed (Scheme 9.3).38 The complex 1 contains a chiral titanium atom through the appendant tartrate ligands. The intramolecular hydrogen bond ensures that internal epoxidation is only favored at one face of the allyl alcohol. This explanation is in accord with the experimental observations that substrates with an a-substituent (b = alkyl a = alkyl or hydrogen) react much slower than when this position is not substituted (b = hydrogen). [Pg.125]

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Titanium bonding

Titanium hydrogenation

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