4-Ethynylaniline: A Key Intermediate for Advanced Chemical Synthesis
Unlock innovation in pharmaceuticals and materials with this versatile alkyne building block.
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4-Ethynylaniline
4-Ethynylaniline, also known as p-ethynylaniline, stands out as a critical chemical intermediate due to its unique terminal alkyne functionality and aniline group. This structure makes it exceptionally useful in a wide array of synthetic transformations, most notably in click chemistry reactions.
- Explore the synthesis of novel compounds using 4-ethynylaniline as a key building block in organic synthesis. Its reactive alkyne moiety readily participates in reactions like the copper-catalyzed azide-alkyne cycloaddition (CuAAC).
- Discover the role of 4-ethynylaniline in pharmaceutical intermediate production, particularly its essential contribution to synthesizing anti-cancer drugs, thereby aiding in the development of life-saving treatments.
- Investigate the application of 4-ethynylaniline in advanced polymers, where it functions as a high-value end capping agent to impart superior thermal stability and mechanical properties to materials used in demanding applications like aerospace.
- Understand the significance of p-ethynylaniline CAS 14235-81-5 as a reliable and pure reagent for researchers and manufacturers seeking consistent quality in their chemical processes.
Key Advantages
Versatility in Synthesis
Leverage the dual functionality of 4-ethynylaniline for diverse chemical pathways. Its structure is ideal for the click chemistry applications that are revolutionizing drug discovery and materials science.
Pharmaceutical Efficacy
As a critical pharmaceutical intermediate, 4-ethynylaniline plays a vital role in the efficient production of essential medicines, contributing to advancements in healthcare.
Material Performance Enhancement
Utilize 4-ethynylaniline to engineer high-performance polymers. Its inclusion as an end-capping agent is crucial for achieving exceptional durability and thermal resistance in advanced materials.
Key Applications
Click Chemistry
Serve as a key reagent for copper-catalyzed azide-alkyne cycloaddition (CuAAC) reactions to synthesize 1,2,3-triazole compounds for various research fields.
Pharmaceutical Synthesis
Act as an essential intermediate in the production of pharmaceuticals, including anti-cancer drug compounds, thereby supporting drug development.
Advanced Polymers
Function as a high-value end capping agent for aerospace-grade resins and thermosetting polymers, enhancing thermal stability and mechanical properties.
Organic Synthesis
Used in general organic synthesis for creating complex molecules, leveraging its terminal alkyne and amine functionalities.