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Reactions silicon hydrolysis

Another consequence of this surface sol-gel process on SBA-15 is the reduction of the surface silanol groups induced by the condensation reaction with titaniumbutoxide. The reaction, after hydrolysis, converts surface silanol functionality, (SiO)3SiOH, into Ti-OH functionality. Given the similar electronegativity of silicon (1.8) and titanium (1.7), the expected consequence of this modification in the solid state Si NMR is a decrease in the band and a corresponding increase in the Q band that is, the OTi(OH)3 and OSi(OH)3 ligands will cause equivalent NMR shift perturbations on the substituted silicon site. [Pg.64]

Another route for the production of materials involves the reaction of hydrolysis-condensation of metal alkoxides with water. We study here the important case of amorphous silica synthesis. In this case [38,39,44], silicic acid is first produced by the hydrolysis of a silicon alkoxide, formally a silicic acid ether. The silicic acids consequently formed can either undergo self-condensation, or condensation with the alkoxide. The global reaction continues as a condensation polymerization to form high molecular weight polysilicates. These polysilicates then connect together to form a network, whose pores are filled with solvent molecules, that is, a gel is formed [45],... [Pg.112]

Most of the reactions and properties of 1-substituted imidazoles have been discussed earlier in this review. Apart from the utilization of the readily removable benzyl substituent in synthetic procedures leading to 2-substituted imidazoles, perhaps the mostexciting advances have stemmed from the reactions of the 1 -acylimidazoles (imidazolides) which are extremely reactive in such nucleophilic reactions as hydrolysis and alcoholysis.12 The use of such compounds as N,N -carbonyl-diimidazole in peptide synthesis is now commonplace. The silicon-nitrogen bond in N-trimethylsilylimidazoles is also extremely reactive, so reactive that it is attacked by a-halogenocarboxylic esters.361... [Pg.183]

The sol-gel process involves the reaction of liquid preciusors at room temperature for the fabrication of glasses and ceramics (Brinker, 1980). It has been used for the fabrication of many amorphous and crystalline oxides such as Si02, AI2O3, and many rare-earth doped oxides. Usually, the process involves hydrolysis and condensation oforganometallic precursors. In the case of silica, a silicon alkoxide such as tetraethoxysilane (TEOS) is mixed with an alcohol, such as ethanol, in the presence of water. A reaction of hydrolysis follows, during which alcohol is released ... [Pg.1668]

Coordination Expansion Silicon can undergo 3sp d and 3sp d hybridizations, and thus the coordination of the silicon can expand to penta- and hexacoordina-tion, which lowers the activation energy for substitution reactions and ligand exchange. Transitions involving hexacoordinated and pentacoordinated intermediates are common ways to substitute silicon ligands, pathways that are less obtainable for carbon atoms, whose smaller size and exclusive 4-coordination restrict snch snbstitntion reactions. The hydrolysis, condensation and dissolution of silicate, which are described in the next section, exemplify the importance of this attribute. [Pg.214]

Schematics of sol-gel reactions indicating hydrolysis of silicon (Si), titanium (Ti) and zirconium (Zr) alkoxides followed by condensation of hydrolyzed moieties during coating sol formulation. [Pg.309]

The sol-gel method allows the preparation of transparent, solid, and porous inorganic matrices at low temperatures, and the incorporation of organic molecules in its porosity [22,14]. The method involves reactions of hydrolysis and condensation of silicon aUcoxides (Figure 20.3) to produce a three-dimensional (3-D), amorphous, porous, and stable silica network. [Pg.449]

Microscopic sheets of amorphous silica have been prepared in the laboratory by either (/) hydrolysis of gaseous SiCl or SiF to form monosilicic acid [10193-36-9] (orthosihcic acid), Si(OH)4, with simultaneous polymerisation in water of the monosilicic acid that is formed (7) (2) freesing of colloidal silica or polysilicic acid (8—10) (J) hydrolysis of HSiCl in ether, followed by solvent evaporation (11) or (4) coagulation of silica in the presence of cationic surfactants (12). Amorphous silica fibers are prepared by drying thin films of sols or oxidising silicon monoxide (13). Hydrated amorphous silica differs in solubility from anhydrous or surface-hydrated amorphous sdica forms (1) in that the former is generally stable up to 60°C, and water is not lost by evaporation at room temperature. Hydrated sdica gel can be prepared by reaction of hydrated sodium siUcate crystals and anhydrous acid, followed by polymerisation of the monosilicic acid that is formed into a dense state (14). This process can result in a water content of approximately one molecule of H2O for each sdanol group present. [Pg.486]

The most significant difference between the alkoxysilanes and siUcones is the susceptibiUty of the Si—OR bond to hydrolysis (see Silicon compounds, silicones). The simple alkoxysilanes are often operationally viewed as Hquid sources of siUcon dioxide (see Silica). The hydrolysis reaction, which yields polymers of siUcic acid that can be dehydrated to siUcon dioxide, is of considerable commercial importance. The stoichiometry for hydrolysis for tetraethoxysilane is... [Pg.37]

Employing silicon alkoxides, the hydrolysis has to be catalyzed by the addition of an acid or a base, and an excess of water is often used. Employing zirconium alkoxides, the hydrolysis reaction proceeds much faster than the condensation so that the product is obtained as a precipitate rather than a gel. [Pg.541]

Another class of silicon-containing polymers that have great potential to be extremely useful precursor materials are poly(chlorocarbosilanes).14f 46 Poly (chlorocarbosilanes) are not useful without modification because of the rapid hydrolysis of Si—Cl bonds, forming HC1 and an insoluble crosslinked polymer network. However, nucleophilic substitution of these Si—Cl bonds with various reagents produces materials widi a broad range of properties that are determined by the nature of the nucleophile used.47 Poly(chlorocarbosilanes) can be easily synthesized by ADMET (Fig. 8.18) without any detrimental side reactions, since the Si—Cl bond is inert to both catalysts 12 and 14. Early studies produced a polymer with Mn = 3000.14f... [Pg.454]

In many cases, these cyclic siloxanes have to be removed from the system by distillation or fractionation, in order to obtain pure products. On the other hand, cyclic siloxanes where n = 3 and n = 4 are the two most important monomers used in the commercial production of various siloxane polymers or oligomers via the so-called equilibration or redistribution reactions which will be discussed in detail in Sect. 2.4. Therefore, in modern silicone technology, aqueous hydrolysis of chloro-silanes is usually employed for the preparation of cyclic siloxane monomers 122> more than for the direct synthesis of the (Si—X) functional oligomers. Equilibration reactions are the method of choice for the synthesis of functionally terminated siloxane oligomers. [Pg.11]

The radical addition of bromoform to ketensilylacetals has been described, initiated with AIBN or Et3B (ref. 12). The reaction yields polyfunctional silicon-containing compounds of CHBr2C(R)CBr(OR )OSiR type or products of their conversions (hydrolysis, fragmentation of R etc.). [Pg.187]

Mixing trichlorosilane, acetonitrile and diphenylsulphoxide, carried out at 10°C, detonated. This accident was put down to the exothermic addition reaction of the silicon-hydrogen bond on the carbon-nitrogen triple bond of nitrile. Other interpretations are possible for instance, the effect of traces of hydrogen chloride formed by the hydrolysis of chlorosilane on acetonitrile. [Pg.350]

Foly(dimethylsiloxane) (silicone rubber) membranes are fabricated by hydrolysis of alkox-ysilyl terminal groups of silicone-rubber precursors [oligo(dimethylsiloxane) derivatives and crosslinking agents], followed by condensation. Covalent bonding of neutral carriers carrying an alkoxysilyl group to silicone rubber is, therefore, feasible by simple reaction of the silicone-rubber precursor with alkoxysilylated neutral carriers, as schematically shown in Scheme 1 [44]. [Pg.597]

Another convenient procedure for hydrochlorination involves adding trimethylsilyl chloride to a mixture of an alkene and water. Good yields of HC1 addition products (Markovnikov orientation) are formed.3 4 These conditions presumably involve generation of HC1 by hydrolysis of the silyl chloride, but it is uncertain if the silicon plays any further role in the reaction. [Pg.291]

An important reaction of silicon compounds containing electronegative substituents, such as the halogens or a Group 15 or 16 element, is hydrolysis, which often occurs very readily even with atmospheric moisture. The primary reaction in silicone production is the hydrolysis of halosilanes, usually the readily available chlorosilanes, to give silanols, which then undergo acid-catalyzed condensation with loss of water, as shown in Scheme 1. [Pg.152]

See other pages where Reactions silicon hydrolysis is mentioned: [Pg.59]    [Pg.680]    [Pg.314]    [Pg.561]    [Pg.1009]    [Pg.58]    [Pg.355]    [Pg.410]    [Pg.682]    [Pg.691]    [Pg.114]    [Pg.5]    [Pg.2]    [Pg.5]    [Pg.6]    [Pg.14]    [Pg.62]    [Pg.273]    [Pg.41]    [Pg.265]    [Pg.418]    [Pg.421]    [Pg.714]    [Pg.170]    [Pg.681]    [Pg.151]    [Pg.166]    [Pg.169]    [Pg.172]    [Pg.173]    [Pg.174]    [Pg.254]   
See also in sourсe #XX -- [ Pg.36 ]



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