DISODIUM AZELATE

CAS NUMBER: 17265-13-3

EC NUMBER: 241-298-4

MOLECULAR WEIGHT: 232.18 g/mol

MOLECULAR FORMULA:  C9H14Na2O4

DISODIUM AZELATE is a substance used in cosmetic formulations. 
The substance acts as a viscosity regulator.
DISODIUM AZELATE occurs in rancid oleic acid.
DISODIUM AZELATE can be synthesized indirectly from azelaic acid naturally produced by Malassezia furfur (also known as Pityrosporum ovale), a yeast that lives in Normal skin. 
DISODIUM AZELATE helps to clear pigment spots on the skin of the skin.
DISODIUM AZELATE keeps skin bright and clean.

DISODIUM AZELATE contributes to the balance of the skin.
DISODIUM AZELATE is one of the hydrotropic substances that make insoluble bodies soluble in water.

DISODIUM AZELATE inhibits the processing of hyperactive problematic substances into the skin
DISODIUM AZELATE helps to care for the skin.

DISODIUM AZELATE is a rare cosmetic ingredient, with about 0.00% of the products in our database containing it.
DISODIUM AZELATE controls the secretion of sebum, regulates viscosity.

DISODIUM AZELATE component is an emulsifier of synthetic origin. 
DISODIUM AZELATE helps to absorb excess oil and assists with time released delivery of multi-hydroxy acid polymers for gentle exfoliation. 
DISODIUM AZELATE helps to prevent cell build up and clogged pores, while Vitamin B Complex (Yeast Extract) helps to regulate oil gland secretion.
DISODIUM AZELATE is part of a series of hair and skin conditioners.

DISODIUM AZELATE is capable of inhibiting significantly the oxidation of aromatic compounds and the lipoperoxidation of arachidonic acid which are due to hydroxyradicals generated by Fenton.
Microemulsions containing DISODIUM AZELATE can be used to optimize drug targeting in acne treatment.

DISODIUM AZELATE is a compound in the Linear Alkyl Dicarboxylate category.
DISODIUM AZELATE appears as a white to pale yellow powder.

DISODIUM AZELATE has excellent emulsifying, dispersing, wetting, penetrating, lubricating and dissolving ability.
DISODIUM AZELATE is found in the structure of fast-absorbing creams, especially in the cosmetics industry, due to its rapid absorption feature.

DISODIUM AZELATE is an antiacne agent.
DISODIUM AZELATE can be obtained from the reaction of azelaic acid with sodium hydroxide.

DISODIUM AZELATE is used in many industrial areas as a lubricant or dispersing agent.
DISODIUM AZELATE can be used as a hydrotrope in many laboratories.

DISODIUM AZELATE can be synthesized by various reactions of azelaic acid, which acts as a signal to induce the accumulation of salicylic acid, an important component of a plant's defense response.
DISODIUM AZELATE is used as a thickener in lithium complex greases in the Lubricants industries.

DISODIUM AZELATE ensures the management of impurities in the skin.
DISODIUM AZELATE is used in the composition of drugs to treat mild to moderate acne, both comedonal acne and inflammatory acne.

DISODIUM AZELATE belongs to the linear alkyl dicarboxylate drug class.
DISODIUM AZELATE tries to kill acne bacteria infecting the skin pores.

DISODIUM AZELATE is also used as a topical gel treatment for rosacea because of its ability to reduce inflammation.
In the use of DISODIUM AZELATE as an active substance, it is necessary to know in what percentages it will be used.

DISODIUM AZELATE compound is Canonicalized
DISODIUM AZELATE can soluble in water.

USES OF DISODIUM AZELATE:
DISODIUM AZELATE is used as Lubricant.
DISODIUM AZELATE is used as a hydrotrope, that is, DISODIUM AZELATE allows insoluble substances to become water-soluble.

DISODIUM AZELATE can be used as emulsifying agent, dispersing agent.
DISODIUM AZELATE is used in the production of many products, especially in the cosmetics industry.

DISODIUM AZELATE is used as a viscosity control agent. 
Therefore, DISODIUM AZELATE has a very important role in the industry.

DISODIUM AZELATE is used as a thickener in lithium complex greases in the Mineral Oil industry.
DISODIUM AZELATE is highly preferred because of the wide variety of changes that the substance can make in its form.

DISODIUM AZELATE is also frequently used in the manufacture of medical drugs.
DISODIUM AZELATE is used as a base for many products in the cosmetic industry due to its dispersive and absorbent properties.

In addition, DISODIUM AZELATE is frequently used in such treatments as it prevents acne formation.
DISODIUM AZELATE is used as a thickener in lithium complex greases in the Lubricants industries.

DISODIUM AZELATE can be used as a corrosion inhibitor in cosmetics, detergents and lubricants
DISODIUM AZELATE can also be used for aircraft and automotive applications.

DISODIUM AZELATE is also sometimes used in the production processes of chemical materials such as synthetic products, paper, paint, rubber and pharmaceuticals.
DISODIUM AZELATE is used in many dermatological treatments in medical science.

DISODIUM AZELATE has a very important place in many industries.
DISODIUM AZELATE assists in the organic synthesis and analysis of certain substances in chemistry laboratories.

DISODIUM AZELATE has many positive effects on products produced in pharmacology, provided that it is added in sufficient quantities.
DISODIUM AZELATE is used as a dispenser base for many products.

APLICATIONS OF DISODIUM AZELATE:
-Medical science
-Pharmacology
-Cosmetics industry
-Oil industry
-Chemistry laboratories
-Acne treatment
-Emulsifying agent
-Dispersing agent
-Dermatological studies
-Skin remedies
-Cream production
-Cosmetic derivative ointments
-Clinical medicinal drugs
-ın hydrotropic requirement
-As lubricant
-For viscosity agent in research lab

PHYSICAL PROPERTIES OF DISODIUM AZELATE:
-Molecular Weight: 232.18
-Exact Mass: 232.06874749
-Monoisotopic Mass: 232.06874749
-Appearance: White to pale yellow powder
-Solubility: Soluble in water
-Boiling Point: about 374.30 °C
-Melting Point: about 106 °C

CHEMICAL PROPERTIES OF DISODIUM AZELATE:
-Vapor Pressure: 0.000001 mmHg
-Flash Point: 389.00 °F
-logP (o/w): 1.862
-Stability: Stable
-Biodegradability: Biodegradabl
-Actives %:  ≥95.0
-Topological Polar Surface Area: 80.3 Ų
-Hydrogen Bond Donor Count: 0
-Hydrogen Bond Acceptor Count: 4
-Rotatable Bond Count: 6
-Heavy Atom Count: 15
-Complexity: 136
-Covalently-Bonded Unit Count: 3

PRODUCTION OF DISODIUM AZELATE:
DISODIUM AZELATE can be synthesized by various reactions of azelaic acid, which acts as a signal to induce the accumulation of salicylic acid, an important component of a plant's defense response
DISODIUM AZELATE can be synthesized indirectly from azelaic acid naturally produced by Malassezia furfur (also known as Pityrosporum ovale), a yeast that lives in Normal skin.

DISODIUM AZELATE, in short, can be obtained indirectly from natural or synthetic compounds, although it is not directly available.
Related to the acquisition of DISODIUM AZELATE; DISODIUM AZELATE can be obtained especially as a result of the reaction of azelaic acid with sodium hydroxide.

In this respect, DISODIUM AZELATE can be synthesized in many ways.
Even better results can be observed with purification after the synthesis reaction of DISODIUM AZELATE.

STORAGE OF DISODIUM AZELATE:
DISODIUM AZELATE Container should be kept tightly closed when not in use.
No special usage advice from DISODIUM AZELATE is required.

For DISODIUM AZELATE; Aerosol and dust formation should be avoided.
Open windows to allow natural ventilation.

The DISODIUM AZELATE Container should be kept tightly closed.
DISODIUM AZELATE Should not be stored together with strong alkalis.

DISODIUM AZELATE Should be stored in a cool, well-ventilated place.
DISODIUM AZELATE should be kept in a cool place.
store DISODIUM AZELATE in glass containers.

SYNONYMS:

Disodium azelate

disodium;nonanedioate

Nonanedioic acid, disodium salt

Nonanedioic acid, sodium salt

sodium azelate

Nonanedioic acid disodium salt

Azelaic acid, sodium salt

Nonanedioic acid, disodium salt

Nonanedioic acid, sodium salt

disodium;nonanedioate 

Disodium azelate 

disodium azelaate

disodium nonanedioate

Nonanedioic acid, disodium salt, 

Nonanedioic acid, sodium salt