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2,5-Octanediol is an organic compound with the chemical formula C8H18O2. It is a colorless, viscous liquid with a slight odor and is soluble in water. This diol is a straight-chain, symmetrical alcohol with two hydroxyl groups attached to the second and fifth carbon atoms of an octane backbone. 2,5-Octanediol is primarily used as a chemical intermediate in the synthesis of various products, such as plasticizers, surfactants, and lubricants. It is also employed in the production of fragrances and flavors, as well as in the pharmaceutical industry. The compound is synthesized through various methods, including the reduction of 2,5-diketone or the hydroformylation of butyraldehyde. Due to its versatile applications and properties, 2,5-Octanediol holds significance in the chemical industry.

4527-78-0

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4527-78-0 Usage

Physical form

Colorless, viscous liquid

Uses

+ Chemical intermediate in production of polymers (e.g. polyester resins, polyurethanes)
+ Solvent, emollient, and humectant in personal care products (e.g. skincare, haircare)
+ Antimicrobial properties in cosmetic and personal care formulations
+ Popular preservative in beauty and personal care products due to ability to inhibit bacterial and fungal growth

Check Digit Verification of cas no

The CAS Registry Mumber 4527-78-0 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 4,5,2 and 7 respectively; the second part has 2 digits, 7 and 8 respectively.
Calculate Digit Verification of CAS Registry Number 4527-78:
(6*4)+(5*5)+(4*2)+(3*7)+(2*7)+(1*8)=100
100 % 10 = 0
So 4527-78-0 is a valid CAS Registry Number.

4527-78-0Downstream Products

4527-78-0Relevant academic research and scientific papers

Biocatalytic synthesis of non-vicinal aliphatic diols

Ebrecht, Ana C.,Aschenbrenner, Jasmin C.,Smit, Martha S.,Opperman, Diederik J.

supporting information, p. 439 - 445 (2021/01/29)

Biocatalysts are receiving increased attention in the field of selective oxyfunctionalization of C-H bonds, with cytochrome P450 monooxygenases (CYP450s), and the related peroxygenases, leading the field. Here we report on the substrate promiscuity of CYP505A30, previously characterized as a fatty acid hydroxylase. In addition to its regioselective oxyfunctionalization of saturated fatty acids (ω-1-ω-3 hydroxylation), primary fatty alcohols are also accepted with similar regioselectivities. Moreover, alkanes such as n-octane and n-decane are also readily accepted, allowing for the production of non-vicinal diols through sequential oxygenation. This journal is

Solvent effects in hydrodeoxygenation of furfural-acetone aldol condensation products over Pt/TiO2 catalyst

Ramos, Rubén,Ti?ler, Zdeněk,Kikhtyanin, Oleg,Kubi?ka, David

, p. 174 - 183 (2016/12/06)

The solvent effects on hydrodeoxygenation (HDO) of 4-(2-furyl)-3-buten-2-one (F-Ac) over Pt/TiO2 catalyst were investigated at T = 200 °C and P(H2) = 50 bar. The initial reactant is the main product of aldol condensation between furfural and acetone, which constitutes a promising route for the production of bio-based chemicals and fuels. A sequence of experiments was performed using a selection of polar solvents with different chemical natures: protic (methanol, ethanol, 1-propanol, 2-propanol, 1-pentanol) and aprotic (acetone, tetrahydrofuran (THF), n,n-dimethylformamide (DMF)). In case of protic solvents, a good correlation was found between the polarity parameters and conversion. Consequently, the highest hydrogenation rate was observed when 2-propanol was used as a solvent. In contrast, the hydrogenation activity in presence of aprotic solvents was related rather to solvent-catalyst interactions. Thus, the initial hydrogenation rate declined in order Acetone > THF > DMF, i.e. in accordance with the increase in the nucleophilic donor number and solvent desorption energy. Regarding the product distribution, a complex mixture of intermediates was obtained, owing to the successive hydrogenation (aliphatic C[dbnd]C, furanic C[dbnd]C and ketonic C[dbnd]O bonds), ring opening (via C[sbnd]O hydrogenolysis) and deoxygenation reactions. Based on the proposed reaction scheme for the conversion of F-Ac into octane, the influence of the studied solvents over the cascade catalytic conversion is discussed. A significant formation of cyclic saturated compounds such as 2-propyl-tetrahydropyran and 2-methyl-1,6-dioxaspiro[4,4]nonane took place via undesirable side reactions of cyclization and isomerization. The best catalytic performance was found when using acetone and 2-propanol as solvents, achieving significant yields of 4-(2-tetrahydrofuryl)-butan-2-ol (28.5–40.4%) and linear alcohols (6.3–10.4%). The better performance of these solvents may be associated with a lower activation energy barrier for key intermediate products, due to their moderate interaction with the reactant and the catalyst. In case of methanol and DMF, undesired reactions between the reactant and the solvent took place, leading to a lower selectivity towards the targeted hydrodeoxygenated products.

Effective production of octane from biomass derivatives under mild conditions

Xu, Wenjie,Xia, Qineng,Zhang, Yu,Guo, Yong,Wang, Yanqin,Lu, Guanzhong

experimental part, p. 1758 - 1761 (2012/03/27)

Cool cats dont feel pressure: Furfural is catalytically converted into octane in high yields at relatively low pressures and temperatures. In a three-step process, two bifunctional catalysts, Pt/Co2AlO4 and Pt/NbOPO4, play crucial roles in achieving C8-ols from 4-(2-furyl)-3-buten-2-one and transforming the C8-ols into octane, respectively.

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