| Chemical Name: | 1-Hexen-3-yne, 2-methyl- |
| CAS Number: | 23056-94-2 |
| Product Number: | AG002M1M(AGN-PC-0JMRP3) |
| Synonyms: | |
| MDL No: | |
| Molecular Formula: | C7H10 |
| Molecular Weight: | 94.1543 |
2-METHYL-1-HEXEN-3-YNE, also known as 2-methyl-1-hexen-3-yne, is a key compound utilized in chemical synthesis for various applications. This alkyne compound plays a crucial role as a building block in organic chemistry, particularly in the creation of complex carbon frameworks and functionalized molecules. Its unique structure, characterized by a triple bond and a branched carbon chain, lends itself well to forming diverse chemical compounds through various reactions.One prominent application of 2-METHYL-1-HEXEN-3-YNE is in the synthesis of fine chemicals and pharmaceutical intermediates. Its alkyne functional group serves as a versatile site for further derivatization, enabling the introduction of specific functional groups or modifications to tailor the properties of the final products. This compound is often employed in the preparation of advanced materials, drug candidates, and specialty chemicals due to its reactivity and ability to participate in various synthetic transformations.Furthermore, 2-METHYL-1-HEXEN-3-YNE is commonly used in the development of new organic reactions and methodologies in the field of organic synthesis. Its unique structure and reactivity provide chemists with a valuable tool for exploring novel synthetic pathways and designing efficient strategies for the construction of complex molecules. By harnessing the properties of this compound, researchers can discover innovative ways to access challenging chemical structures and contribute to the advancement of synthetic chemistry.In summary, 2-METHYL-1-HEXEN-3-YNE is a versatile and valuable chemical building block that finds widespread application in chemical synthesis for the creation of diverse compounds, ranging from pharmaceutical intermediates to advanced materials. Its role in organic reactions and synthetic methodology development highlights its significance in modern chemistry research and the continuous pursuit of expanding the frontier of chemical knowledge and innovation.
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