n-HEPTYL ALDEHYDE

PRODUCT IDENTIFICATION

CAS NO. 111-71-7

n-HEPTYL ALDEHYDE

EINECS NO. 203-898-4
FORMULA CH3(CH2)5CHO
MOL WT. 114.19

H.S. CODE

 

TOXICITY

 
SYNONYMS Oenanthal; Heptaldehyde; n-Heptanaldehyde; n-Heptanal;
Heptyl Aldehyde; Heptanal; Enanthal; Enanthaldehyde; Enanthole; Enanthic Aldehyde; n-Heptaldehyde; Heptanaldehyde;
RAW MATERIALS  

CLASSIFICATION

 

PHYSICAL AND CHEMICAL PROPERTIES

PHYSICAL STATE

clear oily liquid with fresh, green, sweet herbal odor

MELTING POINT

-43 C
BOILING POINT 151 C
SPECIFIC GRAVITY 0.817

SOLUBILITY IN WATER

Slightly soluble

pH  
VAPOR DENSITY  
AUTOIGNITION

 

REFRACTIVE INDEX

1.4125

NFPA RATINGS

Health: 2, Flammability: 1, Reactivity: 0

FLASH POINT

35 C

STABILITY Stable under ordinary conditions

APPLICATIONS

This compound is used in perfumery, in the manufacture of 1-heptanol and ethyl oenanthate, in organic synthesis, in pharmaceuticals and in flavoring (apple, ginger and almond flavors)
SALES SPECIFICATION

APPEARANCE

clear oily liquid with fresh, green, sweet herbal odor

ALDEHYDE CONTENT

95.0% min

ACID VALUE

5 max

TRANSPORTATION
PACKING 175kgs in drum
HAZARD CLASS 3 (Packing group : III)
UN NO. 3056
REMARKS (DESCRIPTION OF ALDEHYDE)

Aldehydes are organic compounds containing -CHO radical, in which a carbon atom forms a solid bond with an oxygen atom and is also bonded to a hydrogen atom and another group denoted by R, which can be a second hydrogen atom, an alkyl group, or an aryl group. The most important and the simplest examples are methanal (formaldehyde), HCOH, and ethanal (acetaldehyde), CH3CHO.( In systematic chemical nomenclature, aldehyde names end with the suffix -al). Formaldehyde is used to make synthetic resins by reaction with phenols, urea, and melamine, as a chemical intermediate, as an embalming fluid, and as a disinfectant. Acetaldehyde is used chiefly to manufacture acetic acid. They are unpleasant-smelling liquids widely used in the chemical industry, whereas aromatic aldehydes frequently have pleasant smells and are used widely as flavourings and perfumes. An example is  benzaldehyde (benzenecarbaldehyde, C6H5CHO), a derivative of benzene with an aldehyde group attached to the ring. It is a colourless oil smelling of almonds offer applications to both in perfumes and flavourings. Aldehydes are formed by oxidation of primary alcohols; further oxidation yields carboxylic acids. Aldehydes have certain characteristic addition and condensation reactions. Aldehydes can be reduced to primary alcohols (ketones to secondary alcohols). Aldehydes form cyanohydrins with hydrogen cyanide, acetals with alcohol, yellow-orange solid derivatives with DNP ( 2,4-dinitrophenylhydrazones) and undergo condensation reactions to yield oximes (compounds containing the group C:NOH), hydrazones (organic compounds containing the group =C:NNH2), and semicarbazones (organic compounds containing the unsaturated group =C:N.NH.CO.NH2). Aldehydes readily polymerize.