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Graphite metal halide complexes

This situation, clear in the case of more ionic structures, is less stringent in graphite intercalates where, presumably, there is electron transfer to (in the case of alkali-metal intercalates) or from (in the case of metal halide intercalates) the half-filled conduction bands of the graphite layers (produced by overlap of the 7t orbitals). Similarly, the periodicity requirements are less stringent for the alternating composite layers of layer silicates with complex intralayer and interlayer charge balance. [Pg.141]

The (compositionally) simplest mineral class comprises the native elements, that is, those elements, either metals or nonmetals that occur naturally in the native state, uncombined with others. Native gold, silver, and copper, for example, are metals that naturally occur in a ductile and malleable condition, while carbon - in the form of either graphite or diamond -and sulfur are examples of nonmetallic native elements. Next in compositional complexity are the binary minerals composed of two elements a metal or nonmetallic element combined with oxygen in the oxides, with a halogen - either fluorine, chlorine bromine, or iodine - in the halides, or sulfur, in the sulfides. The oxide minerals, for example, are solids that occur either in a somewhat hard, dense, and compact form in mineral ores and in rocks, or as relatively soft, unconsolidated sediments that melt at moderate to... [Pg.36]

Reduction of halides. Benzylic and allylic halides are dimerized in good yield by the complex of copper metal and cyclohexylisonitrile (Wurtz reaction). Secondary halides are dimerized in low yield, and primary halides do not react. The system is less active than Cu(I) salts and resembles potassium graphite. [Pg.66]

Class I. ELEMENTS. A. Metals. Cubic copper, silver, gold, iron, platinum, iridium. - Tetragonal tin. - Rhombohedral and Hexagonal arsenic, antimony, bismuth, tellurium, (Os, Ir). - B. Metalloids. Cubic diamond. - Hexagonal graphite. - Orthorhombic sulfur, iodine. - Monoclinic sulfur, selenium. - Class II. SULFIDES. - Class HI. HALIDES. -Class IV. OXIDES, divided into SIMPLE OXIDES and COMPLEX OXIDES, such as CARBONATES, PHOSPHATES, SILICATES, BORATES and SULFATES. [Pg.27]

See other pages where Graphite metal halide complexes is mentioned: [Pg.309]    [Pg.309]    [Pg.307]    [Pg.78]    [Pg.307]    [Pg.737]    [Pg.209]    [Pg.240]    [Pg.641]    [Pg.561]    [Pg.247]    [Pg.254]    [Pg.27]    [Pg.46]    [Pg.282]    [Pg.600]    [Pg.567]    [Pg.299]    [Pg.41]    [Pg.176]   
See also in sourсe #XX -- [ Pg.737 ]



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Complex metal halide

Graphite metal

Halide complexation

Halides complex

Metal halide-complexed

Metallized graphite

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