Quick Search
DIPROPYL AMINE
CAS NUMBER: 142-84-7
EC NUMBER: 205-565-9
MOLECULAR FORMULA: C6H15N
MOLECULAR WEIGHT: 101.19
DIPROPYLAMINE appears as a clear colorless liquid with an ammonia-like odor.
DIPROPYLAMINE's Flash point is 30°F.
DIPROPYLAMINE is also called skeletal formula, which is the standard notation for organic molecules.
DIPROPYLAMINE's Vapors heavier than air.
DIPROPYLAMINE occurs naturally in tobacco leaves and artificially in industrial wastes.
DIPROPYLAMINE neutralizes acids in exothermic reactions to form salts plus water
DIPROPYLAMINE may be incompatible with isocyanates, halogenated organics, peroxides, phenols (acidic), epoxides, anhydrides, and acid halides.
DIPROPYLAMINE's Flammable gaseous hydrogen may be generated in combination with strong reducing agents, such as hydrides.
DIPROPYLAMINE is manufactured by reaction of propanol and ammonia over a dehydration catalyst at high temperature and pressure.
Alternatively, propanol and ammonia can be combined with hydrogen over a dehydrogenation catalyst.
In each instance, the resulting mixture of primary, secondary, and tertiary amines can be separated by continuous distillation and extraction.
DIPROPYLAMINE is a natural component of vegetables, fish, fruits, and other foods and of tobacco products.
DIPROPYLAMINE also is found in human urine, waste water lagoons and in workplace air.
DIPROPYLAMINE also is employed in the purification of perfluoro compounds to convert the incompletely fluorinated impurities to solids which are then removed by filtration.
DIPROPYLAMINE is used in the rubber industry.
Metal containers involving the transfer of DIPROPYLAMINE should be grounded and bonded.
DIPROPYLAMINE are organic compounds containing a dialkylamine group, characterized by two alkyl groups bonded to the amino nitrogen.
DIPROPYLAMINE is soluble (in water) and a very strong basic compound (based on its pKa).
DIPROPYLAMINE can be found in a number of food items such as wild celery, orange bell pepper, yellow bell pepper, and pepper which makes di-n-propylamine a potential biomarker for the consumption of these food products.
DIPROPYLAMINE is a secondary amine, even though the R groups attached to nitrogen are primary.
DIPROPYLAMINE's Less dense than water.
Since DIPROPYLAMINE is an active substance, it is necessary to know how it will react with which chemicals.
DIPROPYLAMINE is a member of the class of compounds known as dialkylamines.
DIPROPYLAMINE is normally stable, even under fire conditions.
DIPROPYLAMINE can soluble in water.
DIPROPYLAMINE can use for Pharmaceutical and medicine manufacturing.
DIPROPYLAMINE should be stored in glass bottles.
DIPROPYLAMINE is a chemical compound from the group of secondary, aliphatic amines.
DIPROPYLAMINE can be obtained by hydrogenating propionitrile with the aid of a rhodium catalyst.
DIPROPYLAMINE is used as an intermediate in the manufacture of herbicide drugs and zeolites.
DIPROPYLAMINE's contact with nitrosating agents may lead to the formation of nitrosamines.
DIPROPYLAMINE is naturally found in tobacco leaves and artificially in industrial waste.
DIPROPYLAMINE neutralizes acids in exothermic reactions to form salts plus water.
DIPROPYLAMINE is very soluble in acetone.
DIPROPYLAMINE (DPA; also called Di-N-Propylamine DNPA) is a secondary amine which belongs to the class of dialkylamines.
DIPROPYLAMINE is a member of the class of compounds known as dialkylamines.
DIPROPYLAMINE also can used for Water treatment products.
DIPROPYLAMINE exists both naturally and artificially.
DIPROPYLAMINE has an important role in reactions related to ion exchange agents.
DIPROPYLAMINE should be stored in tightly closed containers in a cool, well-ventilated area.
DIPROPYLAMINE is a versatile intermediate with a variety of applications.
DIPROPYLAMINE's chemically very important and available in most laboratories.
DIPROPYLAMINE must have an MSDS form when stored, like every chemical substance.
USES OF DIPROPYLAMINE:
DIPROPYLAMINE is used as an intermediate in the manufacture of herbicide drugs and zeolites.
DIPROPYLAMINE is used in the rubber industry.
DIPROPYLAMINE can use for Pharmaceutical and medicine manufacturing.
DIPROPYLAMINE also can used for Water treatment products.
DIPROPYLAMINE has an important role in the production of chemicals used in agriculture.
DIPROPYLAMINE is used as an intermediate in the later stages of some reactions. dpa
DIPROPYLAMINE used for the manufacture of adhesive material.
DIPROPYLAMINE is used in the production of impermeable materials in industry.
DIPROPYLAMINE is also used for the manufacture of medicines.
DIPROPYLAMINE is used in industry for the production of synthetic rubber material.
DIPROPYLAMINE helps the production of many substances both in agriculture and in the pharmaceutical industry.
APPLICATION OF DIPROPYLAMINE:
-Adhesives and sealant chemicals
-Agricultural chemicals (non-pesticidal)
-Intermediates
-Ion exchange agents
-Adhesives and sealants
-Fuels and related products
-Non-TSCA use
-Water treatment products
-Adhesive manufacturing
-All other basic organic chemical manufacturing
-Pesticide, fertilizer, and other agricultural chemical manufacturing
-Pharmaceutical and medicine manufacturing
-Plastic material and resin manufacturing
-Synthetic rubber manufacturing
PHYSICAL PROPERTIES OF DIPROPYLAMINE:
-Molecular Weight: 101.19
-Exact Mass: 101.120449483
-Monoisotopic Mass: 101.120449483
-Odor: Ammonia odor
-Melting Point: -63 °C
-Boiling Point: 109.3 °C at 760 mm Hg
-Density: 0.738 at 20 °C/4 °C
-Bulk density: 6.1 lb/gal
-Vapor Density: 3.49 (air= 1)
-Vapor Pressure: 20.1 mm Hg at 25 °C
-Viscosity: 0.517 mPa.s at 25 °C
CHEMICAL PROPERTIES OF DIPROPYLAMINE:
-XLogP3: 1.7
-Hydrogen Bond Donor Count: 1
-Rotatable Bond Count: 4
-Topological Polar Surface Area: 12 Ų
-Heavy Atom Count: 7
-Complexity: 23.4
-Formal Charge: 0
-Covalently-Bonded Unit Count: 1
-Flash Point: 63 °F (17 °C) (open cup) / 7 °C (closed cup)
-Solubility: Soluble (>=10 mg/ml) / 0.58 M Miscible in ether, very soluble in acetone, soluble in ethanol
-Henrys Law Constant: 5.1X10-5 atm-cu m/mole at 25 °C
-Heat of Combustion: -436.0X10+5 J/KG
-Heat of Vaporization: 44.04 kJ/mol at 25 °C
PRODUCTION OF DIPROPYLAMINE:
DIPROPYLAMINE can be obtained naturally from the structure of some tobacco plants.
DIPROPYLAMINE; synthetic from items in the agricultural industrynobtainable.
DIPROPYLAMINE alco may occur as an intermediate product in some reactions especially occuring in organic chemistry laboratories.
DIPROPYLAMINE is obtained as it can be obtained in many ways, storage conditions must be considered.
One of the most important things in DIPROPYLAMINE production is the creation of the MSDS form.
The inventory report is as important as DIPROPYLAMINE's production.
STORAGE OF DIPROPYLAMINE:
Where DIPROPYLAMINE may be present, before entering a confined space; check to make sure that an explosive concentration does not exist.
DIPROPYLAMINE should store in Tightly closed containers in a cool, well-ventilated area.
Metal containers involving the transfer of DIPROPYLAMINE should be grounded and bonded.
Where possible, automatically pump liquid from drums or other storage containers to process containers.
Drums must be equipped with self-closing valves, pressure vacuum bungs, and flame arresters.
Use only non-sparking tools and equipment, especially when opening and closing containers of DIPROPYLAMINE
Sources of ignition such as smoking and open flames are prohibited where DIPROPYLAMINE is used, handled, or stored in a manner that could create a potential fire or explosion hazard.
DIPROPYLAMINE should be stored in glass bottles.
DIPROPYLAMINE'S bottle must be tightly closed.
DIPROPYLAMINE's bottles must have an ingredient label.
SYNONYMS:
DIPROPYLAMINE
Di-n-propylamine
1-Propanamine, N-propyl-
n-Dipropylamine
N-propylpropan-1-amine
N-Propyl-1-propanamine
Dipropyl amine
Di(n-propyl)amine
Dipropylamine, 99%
DIPROPYL-AMINE
Di-n-propylamin
Di-propylamine
Di-n-propyl amine
N,N-Dipropylamine
N-propyl propylamine
N-propyl-propylamine
N,N-Dipropylamine
N,N-di-n-propylamine
N-propyl-1-propanamine
Di-normal-propylamine
Dipropylamine
N,N-dipropylamine
n-dipropylamine
