3-AMINOBENZYL ALCOHOL

3-AMINOBENZYL ALCOHOL
PRODUCT IDENTIFICATION
CAS NO.	1877-77-6
EINECS NO.	217-514-8
FORMULA	H₂NC₆H₄CH₂OH
MOL WT.	123.15
H.S. CODE
TOXICITY
SYNONYMS	3-Aminobenzyl alcohol; m-Aminobenzylic alcohol;
3-Aminobenzenemethanol; m-(Hydroxymethyl)aniline; 3-Aminophenylcarbinol; 3-Aminobenzenemethanol; (3-Aminophenyl)methanol;
DERIVATION
CLASSIFICATION
PHYSICAL AND CHEMICAL PROPERTIES
PHYSICAL STATE	`slightly beige crystalline powder`
MELTING POINT	90 - 93 C
BOILING POINT
SPECIFIC GRAVITY
SOLUBILITY IN WATER	slightly soluble
SOLVENT SOLUBILITY
pH
VAPOR DENSITY
REFRACTIVE INDEX
NFPA RATINGS
AUTOIGNITION
FLASH POINT
STABILITY	Stable under normal conditions
APPLICATIONS
Benzyl is the prefix describing the presence of the redical "C₆H₅CH₂-". An simple example is benzyl alcohol, C₆H₅CH₂OH. Benzyl alcohol, also called phenylmethanol or phenylcarbinol, is a clear, colorless liquid with a mild pleasant aromatic odor; melting at 15 C and Boiling at 205 C. It is a primary alcohol with arene group. It is soluble in water and readily soluble in alcohol and ether. Benzyl alcohol is prepared by the hydrolysis of benzyl chloride in the presence of soda ash. Benzyl alcohol has properties of strong polarity and limited water solubility. It features also good solvency, low toxicity and low vapor pressure. It is used as a general solvent for inks, paints, lacquers, epoxy resin coatings, and as a degreasing agent in cleaning as well as for chemical reaction process. It reacts with acids (acetic, benzoic, and sebacic acids, and etc) to form numerous esters, salts and other compounds, thus is used widely as a valued intermediate in industrial field as well as in making soap, perfume, and flavors. This compound is used as a dyeing assistant for filament nylons. Its applications include many pharmaceutical preparations and bacteriostatic compounds. It was used for antipruritic activity to relieve itching. Benzyl alcohol, or a derivative thereof, is used as a: solvent in paint stripper and waterborne coatings applications curing agent epoxy coating industry chemical intermediate for synthesis of target molecules used in pharmaceuticals, cosmetics, preservatives, and flavoring & fragrance agents. 3-Aminobenzyl Alcohol is used as an intermediate to manufacture pharmaceuticals. Carbinol is a primary alcohol with general formula RCH₂OH. In carbinol nomenclature system, the term of carbinol is methanol itself and other groups are considered to have replaced one of the methanol hydrogen atoms to describe larger alcohols as derivatives of carbinol. This nomenclature system is particularly useful when the groups attached to the methanol carbon are large, aromatic, and cyclo groups. Benzyl alcohol is called phenylcarbinol or benzenecarbinol while benzyl carbinol is phenylethyl alcohol. Alcohols are widely used as solvents, fuels and chemical raw materials. Generally, hydroxyl group compounds are polar, which trends to promote solubility in water. But the carbon chain resist to solubility in water. Short chain alcohols (methanol, ethanol, and propanol) in which the hydroxyl group predominates are miscible in water. Butanol is moderately soluble because of the balance between the two opposing solubility trends. Higher alcohols are practically insoluble in water because of the hydrocarbon chain's trend is stronger. Alcohols are "protic" solvents. Protic refers to a hydrogen atom attached to an electronegative atom, oxygen. Polar protic solvents are compounds that can be represented by the general formula ROH of which water (H₂O), methanol (CH₃OH) and acetic acid (CH₃COOH) are examples. Water-soluble alcohols, low-molecular weight products, are solvents for the manufacture of coatings, dyes and inks, plastics, flavorings, personal-care products, pharmaceuticals, and cleaners. The higher alcohols, slightly soluble in water or insoluble, can provide the proper balance of target properties when solvent-based solvents are formulated for desired viscosity, flowing and leveling, and curing rate and can be used as coupling agents in waterborne coatings. Alcohols are very weak acids as they lose H⁺ in the hydroxyl group. Alcohols undergoes dehydration reaction which means the elimination of water molecule replaced by a pi bond between two adjacent carbon atoms to form alkenes under heating in the presence of strong acids like hydrocloric acid or phosphoric acid. Primary and secondary alcohols can be oxidized to aldehydes and ketones respectively. Carboxylic acids are obtained from oxidation of aldehydes. Oxidation in organic chemistry can be considered to be the loss of hydrogen or gain of oxygen and reduction to gain hydrogen or loss of oxygen. Tertiary alcohols do not react to give oxidation products as they have no H attached to the alcohol carbon. Alcohols undergoes important reactions called nucleophilic substitution in which an electron donor replaces a leaving group, generally conjugate bases of strong acids, as a covalent substitute of some atom. One of important reaction of alcohol is condensation. Ethers are formed by the condensation of two alcohols by heating with sulfuric acid; the reaction is one of dehydration. Almost infinite esters are formed through condensation reaction called esterification between carboxylic acid and alcohol, which produces water. Alcohols are important solvents and chemical raw materials. Alcohols are intermediates for the production of target compounds, such as pharmaceuticals, veterinary medicines, plasticizers, surfactants, lubricants, ore floatation agents, pesticides, hydraulic fluids, and detergents.
SALES SPECIFICATION
APPEARANCE	`slightly beige crystalline powder`
PURITY (HPLC)	98.0% min
MELTING POINT	90 C min
WATER	0.5% max
TRANSPORTATION
PACKING	25kgs in bag
HAZARD CLASS
UN NO.
OTHER INFORMATION