China Northwest Factory Manufacturer Azelaic Acid Cas 123-99-9 For stock delivery
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ColorWhite
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UseHealth Care
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OriginChina
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Package1KG/Tin 25KG/Drum*Carton
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ManufacturerXI'AN LEADER BIOCHEMICAL ENGINEERING CO.,LTD
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Place of OriginCHINA
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Brand NameLeader
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CertificationISO,GMP,SGS,HALA,KOSER,HACCP
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Model NumberLD
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Minimum Order Quantity25KGS
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PriceUS50-100KG
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Packaging Details25KG/Drum
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Delivery Time2-3 working days
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Payment TermsWestern Union, MoneyGram, T/T, L/C
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Supply Ability10MTS/Month
China Northwest Factory Manufacturer Azelaic Acid Cas 123-99-9 For stock delivery
| Azelaic acid Basic information |
| Product Name: | Azelaic acid |
| Synonyms: | azelaicacid,technicalgrade;Azelainic acid;Emerox 1110;Emerox 1144;emerox1110;emerox1144;Emery's L-110;ninandioic acid |
| CAS: | 123-99-9 |
| MF: | C9H16O4 |
| MW: | 188.22 |
| EINECS: | 204-669-1 |
| Product Categories: | Inhibitors;Food additive and acidulant;Building Blocks;C9;Carbonyl Compounds;Carboxylic Acids;API intermediates;alpha,omega-Alkanedicarboxylic Acids;alpha,omega-Bifunctional Alkanes;Monofunctional & alpha,omega-Bifunctional Alkanes;Chemical Synthesis;Organic Building Blocks;MYCOSTATIN |
| Mol File: | 123-99-9.mol |
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| Azelaic acid Chemical Properties |
| Melting point | 98 °C |
| Boiling point | 286 °C100 mm Hg(lit.) |
| density | 1,029 g/cm3 |
| vapor density | 6.5 (vs air) |
| vapor pressure | <1 mm Hg ( 20 °C) |
| refractive index | 1.4303 |
| Fp | 215 °C |
| storage temp. | 2-8°C |
| solubility | 2.4g/l |
| pka | 4.53, 5.33(at 25℃) |
| form | Slightly Crystalline Powder or Flakes |
| color | White to slightly yellow |
| PH | 3.5 (1g/l, H2O) |
| Water Solubility | 2.4 g/L (20 ºC) |
| Merck | 14,905 |
| BRN | 1101094 |
| Stability: | Stable. Combustible. Incompatible with bases, strong oxidizing agents. Readily biodegrades in soil and water with >70% DOC reduction after 28 days. |
| InChIKey | BDJRBEYXGGNYIS-UHFFFAOYSA-N |
| CAS DataBase Reference | 123-99-9(CAS DataBase Reference) |
| NIST Chemistry Reference | Nonanedioic acid(123-99-9) |
| EPA Substance Registry System | Azelaic acid (123-99-9) |
| Safety Information |
| Hazard Codes | Xi |
| Risk Statements | 36/37/38 |
| Safety Statements | 24/25-36-26 |
| WGK Germany | 1 |
| RTECS | CM1980000 |
| TSCA | Yes |
| HS Code | 29171390 |
| Hazardous Substances Data | 123-99-9(Hazardous Substances Data) |
| Toxicity | LD50 orally in Rabbit: > 4000 mg/kg LD50 dermal Rat > 10 g/kg |
| MSDS Information |
| Provider | Language |
|---|---|
| Azelaic acid | English |
| SigmaAldrich | English |
| ACROS | English |
| ALFA | English |
| Azelaic acid Usage And Synthesis |
| Description | Azelaic acid is a topical antiacne agent which exerts its therapeutic action through a myriad of antimicrobial, antiproliferative and cytostatic effects. In vitro, azelaic acid hasbeen shown to inhibit DNA polymerases in several tumor cell lines. |
| Chemical Properties | Azelaic acid is an organic compound with the formula (CH2)7(CO2H)2. This saturated dicarboxylic acid exists as a white powder. It is found in wheat, rye, and barley. It is a component of a number of hair and skin conditioners. |
| Chemical Properties | white to cream solid |
| Chemical Properties | Nonanedioic acid is the best known dicarboxylic acid. Its name stems from the action of nitric acid (azote, nitrogen, or azotic, nitric) oxidation of oleic or elaidic acid. It was detected among products of rancid fats. Its origin explains for its presence in poorly preserved samples of linseed oil and in specimens of ointment removed from Egyptian tombs 5000 years old. Azelaic acid was prepared by oxidation of oleic acid with potassium permanganate, but now by oxidative cleavage of oleic acid with chromic acid or by ozonolysis. Azelaic acid is used, as simple esters or branched-chain esters) in the manufacture of plasticizers (for vinyl chloride resins, rubber), lubricants and greases. Azelaic acid is now used in cosmetics (treatment of acne). It displays bacteriostatic and bactericidal properties against a variety of aerobic and anaerobic micro-organisms present on acne-bearing skin. Azelaic acid was identified as a molecule that accumulated at elevated levels in some parts of plants and was shown to be able to enhance the resistance of plants to infections. |
| Originator | Schering AG (W. Germany) |
| Uses | antiacne, antiproliferative agent |
| Uses | antifungal, binds to membrane sterols |
| Uses | Azelaic acid is used in lacquers, alkyd resins, plasticizers, adhesives, polyamides, urethane elastomers, and organic syntheses. Azelaic acid is also used in treating of acne. |
| Application | Azelaic acid, also known as azalea acid, is a white to slightly yellow powder. Azelaic acid is a medium-long chain dibasic acid[1]. In recent years, with the rapid development of the organic synthetic chemical industry, the demand for medium and long chain dibasic acids is increasing. The medium and long chain dibasic acids and their derivatives have a wide range of industrial applications and a broad product market. |
| Application | Polymers and related materials Esters of this dicarboxylic acid find applications in lubrication and plasticizers. With hexamethylenediamine azelaic acid forms Nylon - 6,9, which finds specialized uses as a plastic. Medical Azelaic acid is used to treat mild to moderate acne, both comedonal acne and inflammatory acne . It belongs to a class of medication called dicarboxylic acids. It works by killing acne bacteria that infect skin pores. It also decreases the production of keratin, which is a natural substance that promotes the growth of acne bacteria Azelaic acid is also used as a topical gel treatment for rosacea, due to its ability to reduce inflammation . It clears the bumps and swelling caused by Rosacea. Azelaic acid has been used for treatment of skin pigmentation including melasma and post inflammatory hyper pigmentation , particularly in those with darker skin types. It has been recommended as an alternative to hydroquinone (HQ). As a tyrosinase inhibitor, azelaic acid reduces synthesis of melanin. Brand names AzClear Action ( 20 % lotion, Ego Pharmaceuticals), Azelex (20% cream, Allergan), White Action cream (20 % cream ,2 % glycolic acid), SynCare), Finacea (15 % gel, Intendis/Berlex Laboratories, subsidiaries of Bayer AG), Finevin (20 % cream, Intendis / Berlex Laboratories), Skinoren (20 % cream or 15% gel, Intendis), Melazepam, Strata Dermatologics, 2oz, Mixed Dicarboxylic Acids 20 % Azelaic Acid Cream.,and Azaclear (azelaic acid and niacinamide, Epikinetics LLC). . |
| Indications | Azelaic acid (Azelex) is a naturally occurring dicarboxylic acid produced by the yeast Malassezia furfur. Azelaic acid inhibits tyrosinase, a rate-limiting enzyme in the synthesis of the pigment melanin. This may explain why diminution of melanin pigmentation occurs in the skin of some patients with pityriasis versicolor, a disease caused by M. furfur. Azelaic acid is bacteriostatic against a number of species thought to participate in the pathogenesis of acne, including Propionibacterium acnes. The drug may also reduce microcomedo formation by promoting normalization of epidermal keratinocytes. |
| Production Methods | Azelaic acid is industrially produced by the ozonolysis of oleic acid. The side product is nonanoic acid. It is produced naturally by Malassezia furfur (also known as Pityrosporum ovale), a yeast that lives on normal skin. The bacterial degradation of nonanoic acid gives azelaic acid. |
| Manufacturing Process | Two step oxidation of tall oil fatty acid using peroxyformic acid and nitric acid/sodium metavanadate were used to produce azelaic acid. Step 1 (derivatization of the double bond): A hydroxy acyloxy derivative of tall oil fatty acid (TOFA) was prepared by mixing 200 g of TOFA (63% oleic acid, 31% linoleic acid) with 500 mL of formic acid. The resulting mixture was vigorously stirred by magnetic action. Hydrogen peroxide solution, 180 mL of 35% by weight, was added in aliquots to the mixture throughout the course of the reaction. A third of the total amount of peroxide solution was added at once to initiate the reaction. The peroxyformic acid in this case was prepared in situ. The start of the reaction was signalled by heat evolution and a dramatic color change, from pale yellow to deep rust red. The exothermicity of the reaction required external cooling to control the temperature. The reaction was maintained at 40°C to minimize oxygen loss through the decomposition of the peroxide. As required, the temperature of the reaction was maintained with an external heating source. A total reaction time of 5 to 6 hours was necessary for complete reaction. The end of the reaction was indicated by a color change, the reaction mixture changed from rust red back to yellow. One last aliquot of peroxide solution was added at the end of the reaction period to provide a peroxide atmosphere during the reaction work-up. TOFA as a substrate produced a mixture of mono- and dihydroxy formoxystearic acid from the oleic and linoleic acid components, respectively. The final product was obtained in essentially 100% yield by removing the unreacted formic acid and hydrogen peroxide as well as water. It was obtained as a viscous, syrupy yellow oil that upon gas chromatographic analysis of the methyl esters of the reaction mixture gave no evidence of unreacted substrate. Step 2 (oxidation of derivative obtained from step 1): A 2 L three neck flask fitted with an air condenser attached to a gas scrubbing apparatus was filled with 500 mL of concentrated nitric acid (70% by weight). The acid was stirred by magnetic action and 1 g of sodium metavanadate was added to it. The resulting mixture was heated slowly to 40°-50°C. At this point a small amount of product as obtained from Step 1 was added to the acid-catalyst mixture. Heating was continued until a sharp temperature increase accompanied by evolution of NOx gases was observed. The reaction temperature was self-sustained with the addition of aliquots of the hydroxy formoxy ester mixture obtained from Step 1. (External cooling may be required throughout the substrate addition period to keep the temperature within 65°-70°C). At the end of the addition period the reaction temperature was maintained for an additional 1.5 to 2 hours, for a total reaction time of 3 hours. The final products were obtained by quenching the reaction by adding excess water and extracting the organic layer with purified diethyl r. The r extract was dried over anhydrous sodium sulfate overnight before its removal with a roto-vap apparatus. Addition of petroleum r (boiling range 35°- 60°C) to the product mixture caused precipitation of the diacid component. Vacuum filtration was used to remove the solid diacids from the liquid monoacid mixture. The latter was obtained by removing the excess petroleum r from the resulting filtrate. Quantitative analysis by gas chromatography of the methyl esters showed that the products to be 96% yield of diacid (66% azelaic, 30% suberic). |
| Brand name | Azelex (Allergan); Finacea (Intendis);Skinoren. |
| Therapeutic Function | Antiacne, Depigmentor |
| Synthesis Reference(s) | Journal of the American Chemical Society, 77, p. 4846, 1955 DOI: 10.1021/ja01623a048 Organic Syntheses, Coll. Vol. 2, p. 53, 1943 |
| Biotechnological Applications | In plants, azelaic acid serves as a "distress flare" involved in defense responses after infection. It serves as a signal that induces the accumulation of salicylic acid, an important component of a plant's defensive response. |
| Mechanism of action | Naturally occurring dicarboxylic acid that is bacteriostatic to Propionibacterium acnes. It also decreases conversion of testosterone to 5{pi}ga-dihydrotestosterone (DHT) and alters keratinization of the microcomedone. It may also be beneficial in the treatment of melasma. The mechanism of action is not fully understood. Deoxyribonucleic acid (DNA) synthesis is reduced, and mitochondrial cellular energy products are inhibited in melanocytes. |
| Clinical Use | Azelaic acid is used for the treatment of mild to moderate acne, particularly in cases characterized by marked inflammation-associated hyperpigmentation. |
| Safety Profile | Low toxicity by ingestion. A skinand eye irritant. Closely related to glutaric acid and adipicacid. Combustible when exposed to heat or flame; canreact with oxidizing materials. |
| Purification Methods | Recrystallise it from H2O(charcoal) or thiophene-free *benzene. The acid can be dried by azeotropic distillation with toluene, the residual toluene solution is then cooled and filtered, and the precipitate is dried in a vacuum oven. It has been purified by zone refining or by sublimation onto a cold finger at 10-3torr. It distils above 360o with partial formation of the anhydride. The dimethyl ester has m –3.9o and b 140o/8mm. [Hill & McEwen Org Synth Coll Vol II 53 1943, Beilstein 2 IV 2055.] |
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