Discover 2-Amino-1,1,3-tricyanopropene: Your Premier Synthesis Building Block
Unlock advanced chemical synthesis with this high-purity fine chemical, essential for modern industries.
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2-Amino-1,1,3-tricyanopropene
This high-purity white powder, known by its CAS number 868-54-2, serves as a critical synthesis building block. Its molecular structure, C6H4N4, offers unique reactivity, making it invaluable in the development of advanced cosmetic and pharmaceutical products. We provide reliable supply of this fine chemical intermediate.
- Unlock new cosmetic formulations with this 2-Amino-1,1,3-tricyanopropene synthesis building block, offering exceptional purity for superior end products.
- Explore the versatility of CAS 868-54-2, a key fine chemical intermediate widely used in both cosmetics and medicine applications.
- Leverage the precise molecular structure of C6H4N4 for your complex organic synthesis projects.
- Benefit from a consistent supply of this essential white powder chemical intermediate, ensuring uninterrupted production.
Advantages You Can Count On
Exceptional Purity
With a guaranteed purity of 98%, this chemical intermediate ensures reliable and consistent results in your synthesis, a key factor when working with fine chemical applications.
Versatile Application
The wide usage of this compound in cosmetics and medicine highlights its broad applicability, making it a go-to for researchers and manufacturers seeking a reliable synthesis building block.
Reactive Molecular Structure
The C6H4N4 molecular formula, featuring nitrile groups, offers significant reactivity for diverse organic synthesis pathways, proving its worth as a vital chemical intermediate.
Key Applications
Cosmetics Industry
The 2-Amino-1,1,3-tricyanopropene synthesis building block is integral to developing novel cosmetic ingredients, capitalizing on its unique chemical properties for innovative formulations.
Pharmaceutical Development
As a crucial fine chemical intermediate, CAS 868-54-2 plays a vital role in the synthesis of active pharmaceutical ingredients and intermediates, supporting medical advancements.
Organic Synthesis
Researchers rely on this white powder chemical intermediate for its reactivity and specific molecular structure (C6H4N4), enabling complex reactions and the creation of new compounds.
Material Science Research
The versatile nature of this compound makes it a subject of interest in material science for developing new polymers and functional materials.