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16-Oxostearic acid methyl ester is a chemical compound derived from stearic acid, a saturated fatty acid commonly found in animal and vegetable fats. It is characterized by the presence of a carbonyl group (C=O) at the 16th carbon atom, which gives it the name "16-oxo." The compound is an ester, formed by the reaction of 16-oxostearic acid with methanol, resulting in the methyl ester. This modification enhances its solubility and volatility, making it useful in various applications such as the synthesis of other chemicals, as a component in certain types of lubricants, and potentially in the production of biofuels. The molecular formula for 16-oxostearic acid methyl ester is C19H36O2, reflecting its structure with a long hydrocarbon chain and an ester group.

2380-31-6

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2380-31-6 Usage

Also known as

Methyl 16-oxooctadecanoate

Type of compound

Organic compound

Derivative of

Stearic acid

Physical state

White crystalline solid

Molecular weight

312.48 g/mol

Uses

1. Manufacturing of perfumes and flavors
2. Production of soaps, detergents, and personal care products
3. Intermediate in the synthesis of various other organic compounds

Safety

Relatively safe for use in its intended applications

Toxicity

Low toxicity

Health hazards

No significant health hazards associated with its handling and use

Check Digit Verification of cas no

The CAS Registry Mumber 2380-31-6 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 2,3,8 and 0 respectively; the second part has 2 digits, 3 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 2380-31:
(6*2)+(5*3)+(4*8)+(3*0)+(2*3)+(1*1)=66
66 % 10 = 6
So 2380-31-6 is a valid CAS Registry Number.

2380-31-6SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 17, 2017

Revision Date: Aug 17, 2017

1.Identification

1.1 GHS Product identifier

Product name methyl 16-oxooctadecanoate

1.2 Other means of identification

Product number -
Other names Octadecanoic acid,16-oxo-,methyl ester

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:2380-31-6 SDS

2380-31-6Downstream Products

2380-31-6Relevant academic research and scientific papers

NMR-based molecular ruler for determining the depth of intercalants within the lipid bilayer. Part III: Studies on keto esters and acids

Afri, Michal,Alexenberg, Carmit,Aped, Pinchas,Bodner, Efrat,Cohen, Sarit,Ejgenburg, Michal,Eliyahu, Shlomi,Gilinsky-Sharon, Pessia,Harel, Yifat,Naqqash, Miriam E.,Porat, Hani,Ranz, Ayala,Frimer, Aryeh A.

, p. 105 - 118 (2015/02/19)

The development of "molecular rulers" would allow one to quantitatively locate the penetration depth of intercalants within lipid bilayers. To this end, an attempt was made to correlate the 13C NMR chemical shift of polarizable "reporter" carbons (e.g., carbonyls) of intercalants within DMPC liposomal bilayers - with the polarity it experiences, and with its Angstrom distance from the interface. This requires families of molecules with two "reporter carbons" separated by a known distance, residing at various depths/polarities within the bilayer. For this purpose, two homologous series of dicarbonyl compounds, methyl n-oxooctadecanoates and the corresponding n-oxooctadecanoic acids (n = 4-16), were synthesized. To assist in assignment and detection several homologs in each system were prepared 13C-enriched in both carbonyls. Within each family, the number of carbons and functional groups remains the same, with the only difference being the location of the second ketone carbonyl along the fatty acid chain. Surprisingly, the head groups within each family are not anchored near the lipid-water interface, nor are they even all located at the same depth. Nevertheless, using an iterative best fit analysis of the data points enables one to obtain an exponential curve. The latter gives substantial insight into the correlation between polarity (measured in terms of the Reichardt polarity parameter, ET(30)) and penetration depth into the liposomal bilayer. Still missing from this curve are data points in the moderate polarity range.

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