cas 1290541-38-6|| where to buy 3-ethynyloxetane

Nom du produit:3-ethynyloxetane

IUPAC Name:3-ethynyloxetane

: CAS：1290541-38-6; Formule moléculaire：C5H6O; Pureté：95%

: Numéro de catalogue：CM325380; Poids moléculaire：82.1

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CM325380-5g	in stock	ƚƴȤȤ

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: N° CAS:1290541-38-6; Formule moléculaire:C5H6O; Point de fusion:-; Code SMILES:C#CC1COC1; Densité:

: Numéro de catalogue:CM325380; Poids moléculaire:82.1; Point d'ébullition:; N° Mdl:MFCD26516293; Stockage:

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: Oxetanes; Oxygen heterocycles are one of the most common heterocycles in drugs and natural products. Oxetene has high polarity and is also a good acceptor for hydrogen bond, which contributes to the metabolism and chemical stability of its host molecules. When substituted for commonly used functional groups such as gem dimethyl or carbonyl, oxetane units can induce profound changes in water solubility, lipophilicity, metabolic stability and conformational preference. Four of the FDA-approved drugs contain oxetenes: Orlistat, Paclitaxel, and two of its derivatives, Docetaxel and Cabazitaxel. Currently, oxetane-containing building blocks are flourishing in medicinal chemistry and drug discovery.

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Product Overview	3-ethynyloxetane is a cyclic organic compound that has gained attention in the scientific community due to its unique chemical properties and potential applications. It is a highly reactive molecule that has been shown to have a variety of biochemical and physiological effects.
Synthesis and Application	The synthesis of 3-ethynyloxetane is a complex process that involves several steps. One of the most common methods is the reaction of ethynylmagnesium bromide with ethylene oxide. The resulting product is then purified through distillation and recrystallization. Other methods include the reaction of acetylene with epoxides and the reaction of acetylene with aldehydes. 3-ethynyloxetane has been used in a variety of scientific research applications. One of the most promising areas of research is in the development of new drugs. It has been shown to have potential as an anti-cancer agent, as well as a treatment for neurological disorders such as Alzheimer's disease. It has also been used in the development of new materials, such as polymers and coatings.
Future Directions	There are many potential future directions for research on 3-ethynyloxetane. One area of research is in the development of new drugs. It has shown promise as an anti-cancer agent and a treatment for neurological disorders, and further research may lead to the development of new drugs based on its chemical properties. Another area of research is in the development of new materials, such as polymers and coatings. 3-ethynyloxetane's unique chemical properties may make it useful in the development of new materials with specific properties. Finally, further research is needed to fully understand the mechanism of action of 3-ethynyloxetane, which may lead to new insights into its potential applications.

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