3-Amidinopyridinium Chloride: Your Key to Advanced Chemical Synthesis
Unlock new possibilities in chemical research with our high-purity 3-Amidinopyridinium Chloride.
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3-Amidinopyridinium Chloride
At NINGBO INNO PHARMCHEM CO.,LTD., we offer 3-Amidinopyridinium Chloride, a crucial molecular building block for intricate chemical syntheses. Its high purity, verified at 98% by HPLC, ensures reliable and reproducible results in your research and production.
- Discover the utility of 3-Amidinopyridinium Chloride CAS 7356-60-7 in complex chemical reactions, enabling the synthesis of novel compounds.
- Leverage this high purity chemical intermediate to streamline your research and development processes, minimizing impurities.
- Utilize this essential molecular building block for synthesis in a wide array of organic chemistry applications.
- Explore the advantages of pyridine derivative synthesis with our precisely manufactured 3-Amidinopyridinium Chloride.
Advantages You Can Rely On
Exceptional Purity
Our commitment to quality ensures that 3-Amidinopyridinium Chloride boasts a minimum purity of 98% via HPLC, a critical factor for successful fine chemical synthesis reagents.
Versatile Application
As a key molecular building block for synthesis, this compound facilitates diverse chemical transformations, making it indispensable for advanced organic chemistry.
Reliable Supply Chain
Source your critical chemical needs with confidence. We focus on providing a stable supply of high purity chemical intermediates for your ongoing projects.
Key Applications
Organic Synthesis
Employ 3-Amidinopyridinium Chloride in sophisticated organic synthesis pathways to create complex molecules and novel compounds.
Pharmaceutical Research
Its structure makes it valuable as a building block for potential pharmaceutical intermediates, contributing to drug discovery efforts.
Chemical Intermediates
Serve as a critical link in the production chain for various fine chemicals, enabling downstream manufacturing processes.
Academic Research
Researchers in academic institutions can utilize this compound for exploring new reaction methodologies and material science innovations.