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The Silicones

Chemical reactions of aimnonia with the silicon surface have also been clearly observed using STS [21], where the disappearance of the it and it states characteristic of the clean surface coincides with the fomiation of Si-H antibonding states corresponding to the dissociation of the ammonia on the Si surface. [Pg.1681]

GiessibI F J 1995 Atomic resolution of the silicon (111 )-(7 7) surface by atomic force microscopy Science 260 67... [Pg.1724]

Figure C2.12.1. Origin of ion exchange capacity in zeolites. Since every oxygen atom contributes one negative charge to the tetrahedron incoriDorated in the framework, the silicon tetrahedron carries no net charge while the aluminium tetrahedron carries a net charge of-1 which is compensated by cations M. Figure C2.12.1. Origin of ion exchange capacity in zeolites. Since every oxygen atom contributes one negative charge to the tetrahedron incoriDorated in the framework, the silicon tetrahedron carries no net charge while the aluminium tetrahedron carries a net charge of-1 which is compensated by cations M.
Ross I M 1997 The Foundation of the Silicon Age Phys. Today December, p 34... [Pg.2896]

McFeely F R, Morar J F and Himpsel F J 1986 Soft x-ray photoemission study of the silicon-fluorine etching reaction Surf. Sc/. 165 277-87... [Pg.2941]

If an excess of magnesium is used, magnesium silicide, Mg2Si, is also produced.) The silicon obtained is a light brown hygroscopic powder. Crystalline or metallic silicon is obtained industrially by the reduction of silica with carbon in an electric arc furnace ... [Pg.166]

The formation of silicon carbide, SiC (carborundum), is prevented by the addition of a little iron as much of the silicon is added to steel to increase its resistance to attack by acids, the presence of a trace of iron does not matter. (Addition of silicon to bronze is found to increase both the strength and the hardness of the bronze.) Silicon is also manufactured by the reaction between silicon tetrachloride and zinc at 1300 K and by the reduction of trichlorosilane with hydrogen. [Pg.166]

Crystalline silicon has the tetrahedral diamond arrangement, but since the mean thermochemical bond strength between the silicon atoms is less than that found between carbon atoms (Si—Si, 226 kJmol , C—C, 356kJmol ), silicon does not possess the great hardness found in diamond. Amorphous silicon (silicon powder) is microcrystalline silicon. [Pg.166]

Note that in the compound (CH3)2Si(OH)2 the silicon atom can hold two OH groups, unlike carbon. It is this property that makes the existence of silicones possible. By variation of the compounds and conditions of hydrolysis, straight chains, rings and cross-linked polymers are obtained, for example ... [Pg.190]

Witir the correct choice of the parameters k and the ah initio data in Figure 4.50 could be reproduced very well. In this force field a Urey-Bradley term was also included between the silicon atoms in such angles to model the lengthening of the Si—O bond as the angle decreased. [Pg.255]

The silicon surface contains chains of atoms that are formally bonded to just three other atoms. These atoms compensate for the lack of a full valence complement of bonds by tt... [Pg.636]

The silicone oils and silicone resins find application as (i) lubricants (their change of viscosity with temperature is small), (ii) hydraulic fluids (they are unusually compressible), (iii) dielectric fluids, (iv) for the pro duction of water-repellant surfaces, and (v) in the electrical industry (because of their high insulating properties). [Pg.1020]

The fact that the separated-atom and united-atom limits involve several crossings in the OCD can be used to explain barriers in the potential energy curves of such diatomic molecules which occur at short intemuclear distances. It should be noted that the Silicon... [Pg.193]

If a Michael reaction uses an unsymmetrical ketone with two CH-groups of similar acidity, the enol or enolate is first prepared in pure form (p. llff.). To avoid equilibration one has to work at low temperatures. The reaction may then become slow, and it is advisable to further activate the carbon-carbon double bond. This may be achieved by the introduction of an extra electron-withdrawing silyl substituent at C-2 of an a -synthon. Treatment of the Michael adduct with base removes the silicon, and may lead as well to an aldol addition (G. Stork, 1973, 1974 B R.K. Boeckman, Jr., 1974). [Pg.73]

A completely dehydroxylated surface consists essentially of an array of oxygen atoms the Si-0 linkages are essentially covalent so that the silicon atoms are almost completely screened by the much larger oxygen atoms. Such a surface represents the extreme case and, even on samples ignited at 1100°C, a minute residue of isolated hydroxyl groups will be present. [Pg.270]

Elastomeric shield materials (ESM) have been developed as low density flexible ablators for low shear appHcations (49). General Electric s RTV 560 is a foamed silicone elastomer loaded with silicon dioxide [7631-86-9] and iron oxide [1317-61 -9] particles, which decomposes to a similar foam of Si02, SiC, and EeSiO. Silicone resins are relatively resistant to thermal decomposition and the silicon dioxide forms a viscous Hquid when molten (50) (see... [Pg.6]

Silicon-containing Pis, useflil as insulation and protective materials, demonstrate adhesion to fibers, fabrics, glass, quartz, and carbon (36). The synthetic method used is the reaction of the silicon-containing dianhydride with diamines. [Pg.532]

Fig. 5. Bipolar transistor (a) schematic and (b) doping profiles of A, arsenic ion implanted into the silicon of the emitter ( -type) B, boron ion implanted into the silicon of the base (p-type) C, antimony ion implanted into the buried layer ( -type) and D, the epi layer... Fig. 5. Bipolar transistor (a) schematic and (b) doping profiles of A, arsenic ion implanted into the silicon of the emitter ( -type) B, boron ion implanted into the silicon of the base (p-type) C, antimony ion implanted into the buried layer ( -type) and D, the epi layer...
See other pages where The Silicones is mentioned: [Pg.358]    [Pg.280]    [Pg.934]    [Pg.935]    [Pg.1679]    [Pg.1704]    [Pg.1828]    [Pg.1830]    [Pg.1832]    [Pg.1834]    [Pg.1835]    [Pg.1838]    [Pg.1838]    [Pg.1839]    [Pg.1839]    [Pg.1859]    [Pg.1885]    [Pg.166]    [Pg.189]    [Pg.190]    [Pg.636]    [Pg.637]    [Pg.59]    [Pg.191]    [Pg.102]    [Pg.252]    [Pg.322]    [Pg.265]    [Pg.328]    [Pg.346]    [Pg.346]    [Pg.346]   


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Abstraction from Single-Crystal Silicon—the Molecular Beam Method

An Isoelectronic Acceptor the Be2 Pair in Silicon

Biogeochemical Processes of Phosphorus and Silicon in the Bohai Sea

Cancer Diseases in Middle Volga Silicon Sub-Region of the Biosphere

Comments on the Potential of FZ Silicon for Solar Cells

Differences between the Elements Silicon and Carbon

Digression on the Central Role of Silicon-Oxygen Compounds in Chromatography

Electrorefining of Silicon by the Three-Layer Principle in a CaF2-Based Electrolyte

Functional Groups in the Chemistry of Silicon

Halomethyl derivatives, of silicon germanium, and tin by the diazomethane method

Heavy Donor Atoms in the Silicon Coordination Sphere

Nucleophilic Displacement at Silicon Controlling Factors of the Stereochemistry

Optical Characteristics of the Silicon-Centered PCs

Polymers Containing Oxygen, Nitrogen, Silicon, and Sulfur in the Backbone

Preparation of polyalkylsiloxanes with higher alkyl radicals at the silicon atom and varnishes based on them

Preparation of polymethylphenylsiloxanes with active hydrogen atoms and vinyl groups at the silicon atom

Properties of the Specific Silicone Polymers

Reagents Derived from the 3rd-to-5lh-Pcriod Non-Metals, Silicon through Xenon

Reagents Derived from the 3rd-to-5th-Period Non-Metals, Silicon through Xenon

Recent Developments in the Chemistry and Chemical Applications of Porous Silicon

Silicon Containing Derivatives of the Antihistamines Diphenhydramine and Fenpiprane

Silicon The Hiyama Reaction

Silicon and the Silicates

Silicon and the ion clusters complexes

Silicon area of the 2.5-D implementation

Silicon area of the MCM implementation

Silicon in the Earth

Silicon in the Environment

Silicon-based proposals: solution for the scaling

Silicones in the Construction Industry

Siloxane Oligomers with Functional Groups Directly Bonded to the Terminal Silicon Atoms (Si—X)

Subvalent Amides of Silicon and the Group 14 Metals

THE CHEMISTRY OF SILICON

THE CVD OF SILICON

THE CVD OF SILICON CARBIDE

The (S,Cu) Centre in Silicon

The Basic Properties of Silicon

The C and P Centres in Silicon

The CVD Process for Epi Silicon

The CVD of Silicon Nitride

The CVD of Silicon-Carbide Fibers

The Carbon-Silicon Crystal Unit Cell

The Chemical Dissolution of Silicon

The Chemical Properties of Silicon and Carbon

The Chemistry of Silicon-Nitrogen

The Chemistry of Silicon-Nitrogen Compounds

The Chemistry of Silicon-Nitrogen U. Wannagat

The Electrochemical Dissolution of Silicon

The Higher Chlorides of Silicon

The I-V Characteristics of Silicon Electrodes in Acidic Electrolytes

The I-V Characteristics of Silicon Electrodes in Alkaline Electrolytes

The Importance of Silicon in Coastal Ecosystems

The Pentacoordinate Silicon

The Phenomenology of Macropore Formation in n-Type Silicon

The Production of Electronic-Grade Silicon

The Shallow Thermal Donors in Silicon

The Silicon-Carbon Bond

The Silicon-Hydrogen System

The Silicon-oxygen Structure

The Structuring of Glass and Silicon

The Ultrashallow Thermal Donors in Silicon

The oxidation of silicon

The oxidation of silicon carbide and nitride

The silicon and germanium

The silicon bonding structure

The stereochemistry of silicon

The structure of amorphous silicon

The structure of silicones

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