101828-21-1 | 1-Naphthalenemethanamine, N-[[4-(1,1-dimethylethyl)phenyl]methyl]-N-methyl-

Packsize	Purity	Availability	Price	Discounted Price
50mg	95%	1 week	$161.00	$113.00
100mg	95%	1 week	$197.00	$138.00
250mg	95%	1 week	$248.00	$173.00
500mg	95%	1 week	$344.00	$241.00
1g	95%	1 week	$419.00	$294.00

Description

• Catalog Number: AA07131
• Chemical Name: 1-Naphthalenemethanamine, N-[[4-(1,1-dimethylethyl)phenyl]methyl]-N-methyl-
• CAS Number: 101828-21-1
• Molecular Formula: C23H27N
• Molecular Weight: 317.46718000000004
• MDL Number: MFCD00865577
• SMILES: CN(Cc1cccc2c1cccc2)Cc1ccc(cc1)C(C)(C)C

Upstream Synthesis Route

Butenafine, a synthetic antifungal compound, holds significant importance in chemical synthesis due to its broad spectrum of applications. In organic chemistry, Butenafine is commonly used as a key intermediate in the creation of various pharmaceutical compounds, particularly antifungal medications. Through strategic reactions and transformations, chemists are able to utilize Butenafine as a building block to construct complex molecular structures with specific biological activities.The unique structure of Butenafine offers versatility in its reactivity, allowing for the formation of diverse chemical bonds and functional groups essential for drug development. Its presence in chemical synthesis facilitates the creation of novel drug candidates with improved efficacy and reduced side effects compared to existing treatments. Furthermore, the use of Butenafine in synthetic routes enables chemists to streamline production processes, leading to cost-effective manufacturing of pharmaceuticals.Beyond its role in pharmaceutical chemistry, Butenafine finds applications in materials science for the synthesis of advanced materials with tailored properties. By incorporating Butenafine-derived molecules into polymer chains or surface coatings, researchers can enhance the performance and durability of various materials in industrial and consumer applications. Overall, the incorporation of Butenafine into chemical synthesis strategies showcases its versatility and significance in advancing diverse fields of science and technology.