Discover 6-Methylpyrazin-2-amine: Your Key to Advanced Chemical Synthesis
Unlock innovative solutions in pharmaceuticals and agrochemicals with this vital heterocyclic building block.
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6-Methylpyrazin-2-amine
This high-purity heterocyclic compound, identified by CAS 5521-56-2, is a crucial intermediate in the synthesis of a wide array of advanced chemical products. Its unique pyrazine structure, substituted with methyl and amine groups, makes it highly reactive and adaptable for various chemical transformations.
- Explore the synthesis of novel drug candidates by leveraging 6-methylpyrazin-2-amine as a foundational element in medicinal chemistry research.
- Utilize CAS 5521-56-2 in the development of effective crop protection agents, contributing to advancements in agrochemical formulations.
- Incorporate this versatile chemical building block into your organic synthesis projects to achieve targeted molecular structures and desired functionalities.
- Benefit from the consistent high quality and purity (typically 97-99%) of 6-methylpyrazin-2-amine for reliable research and industrial applications.
Key Advantages
Versatile Reactivity
The presence of both amino and methyl groups on the pyrazine ring provides diverse reaction pathways, making 6-methylpyrazin-2-amine an ideal choice for complex organic synthesis and the creation of innovative pyrazine derivatives.
Industry-Wide Application
From developing new pharmaceuticals to enhancing agrochemical efficacy, the broad applicability of this compound supports innovation across multiple scientific and industrial sectors, fulfilling needs for chemical intermediates.
Reliable Purity Standards
With purity levels often reaching 99%, this chemical ensures predictable outcomes in sensitive research and manufacturing processes, a critical factor for users seeking high-quality pharmaceutical intermediates.
Key Applications
Pharmaceutical Synthesis
Serve as a crucial building block in the creation of new drug entities, particularly those targeting conditions like cancer and inflammation, demonstrating its value in pharmaceutical synthesis.
Agrochemical Development
Contribute to the efficacy of pesticides and herbicides, playing a key role in the development of advanced agrochemicals for improved crop yields and protection.
Medicinal Chemistry
Facilitate structure-activity relationship (SAR) studies due to its adaptable pyrazine scaffold, aiding researchers in optimizing the therapeutic properties of potential drug candidates.
Material Science Innovation
Explore its potential in developing novel materials, such as coordination polymers and MOFs, for advanced applications in areas like gas storage and catalysis, highlighting its role beyond traditional uses.