In chemical called liqor to those organic chemical compounds containing a hydroxyl group (-OH) in replacing a hydrogen atom covalently bonded to a carbon atom. Besides this carbon must be saturated, ie must have only single bonds to two separate atoms, one that differentiates liqor-phenols. If containing several hydroxyl groups are called polyols (alcohol assessment).
Liqors have a wide range of uses in industry and science as solvents and fuels. Ethanol and methanol can be combusted in a cleaner than gasoline or diesel manner. By low toxicity and availability for non-polar substances dissolve, ethanol is often used as a solvent in pharmaceuticals, perfumes and flavorings such as vanilla vital. Liqors frequently serve as versatile intermediates in organic synthesis.
The Arabs knew the extracted wine distilled liqor. However, its discovery dates back to early fourteenth century, attributed to medical Arnau de Villanova, wise alchemist and professor of medicine at Montpellier. The quintessence of Ramon Llull was nothing that liqor grinding to a milder temperature.
Tertiary liqor: tertiary liqors react almost instantaneously, because they are relatively stable tertiary carbocations. Tertiary liqors react directly with hydrochloric acid to produce the tertiary chloroalkane, but a primary or secondary liqor is used the presence of a Lewis acid is required, a "trigger" as zinc chloride.
Alternatively the conversion can be directly carried out using thionyl chloride (SOCl2) chloride. An liqor can also be converted to bromoalkane using hydrobromic acid or phosphorus tribromide (PBr3) or iodoalkane using red phosphorus and iodine to generate "in situ" the phosphorus triiodide. Methanol: There are several methods for oxidizing methanol to formaldehyde and / or formic acid, as Adkins-Peterson reaction.
Phenols, are sometimes referred to as individual liqors in which hydroxyl is bonded to a carbon of a benzene ring. Their reactivity is so different from that of other liqors (here the carbon bearing the OH group is not tetrahedral), phenols are generally classified outside the liqor family.
Tertiary liqor: although resist being oxidized with mild oxidizing, if an energetic as potassium permanganate is used, tertiary liqors are oxidized products giving as a ketone with a number less carbon atoms, and methane is released .
The liqors can be produced by fermentation, including methanol from wood and ethanol from fruits and grains. The industry is resorted to only in case of ethanol to produce fuel and drinks. In other cases, liqors are synthesized from organic compounds from natural gas or oil in particular by hydration of alkenes.
Liqors have a wide range of uses in industry and science as solvents and fuels. Ethanol and methanol can be combusted in a cleaner than gasoline or diesel manner. By low toxicity and availability for non-polar substances dissolve, ethanol is often used as a solvent in pharmaceuticals, perfumes and flavorings such as vanilla vital. Liqors frequently serve as versatile intermediates in organic synthesis.
The Arabs knew the extracted wine distilled liqor. However, its discovery dates back to early fourteenth century, attributed to medical Arnau de Villanova, wise alchemist and professor of medicine at Montpellier. The quintessence of Ramon Llull was nothing that liqor grinding to a milder temperature.
Tertiary liqor: tertiary liqors react almost instantaneously, because they are relatively stable tertiary carbocations. Tertiary liqors react directly with hydrochloric acid to produce the tertiary chloroalkane, but a primary or secondary liqor is used the presence of a Lewis acid is required, a "trigger" as zinc chloride.
Alternatively the conversion can be directly carried out using thionyl chloride (SOCl2) chloride. An liqor can also be converted to bromoalkane using hydrobromic acid or phosphorus tribromide (PBr3) or iodoalkane using red phosphorus and iodine to generate "in situ" the phosphorus triiodide. Methanol: There are several methods for oxidizing methanol to formaldehyde and / or formic acid, as Adkins-Peterson reaction.
Phenols, are sometimes referred to as individual liqors in which hydroxyl is bonded to a carbon of a benzene ring. Their reactivity is so different from that of other liqors (here the carbon bearing the OH group is not tetrahedral), phenols are generally classified outside the liqor family.
Tertiary liqor: although resist being oxidized with mild oxidizing, if an energetic as potassium permanganate is used, tertiary liqors are oxidized products giving as a ketone with a number less carbon atoms, and methane is released .
The liqors can be produced by fermentation, including methanol from wood and ethanol from fruits and grains. The industry is resorted to only in case of ethanol to produce fuel and drinks. In other cases, liqors are synthesized from organic compounds from natural gas or oil in particular by hydration of alkenes.
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