In the intricate world of chemical research and development, access to reliable and high-quality intermediates is the bedrock of progress. For organic chemists, material scientists, and researchers exploring advanced applications, 3,6-Dichloro-1,2,4,5-tetrazine (CAS 106131-61-7) is a compound of significant interest. This guide aims to assist chemists in understanding the product's value and navigating the process to purchase it effectively.

Key Attributes of 3,6-Dichloro-1,2,4,5-tetrazine

This chemical intermediate typically presents as a light yellow to brown powder or crystal. Its molecular formula is C2Cl2N4, with a molecular weight of 150.95. A crucial specification for its use in demanding syntheses is its purity, commonly provided at a minimum of 97% by HPLC. This ensures that the compound will perform predictably in reactions, minimizing side products and optimizing yields. As a dedicated supplier, we focus on delivering this quality reliably.

Diverse Applications for the Modern Chemist

The versatility of 3,6-Dichloro-1,2,4,5-tetrazine makes it a valuable asset across several scientific disciplines:

  • Organic Synthesis: It serves as an excellent building block for constructing more complex organic molecules. Chemists utilize it in multi-step syntheses, particularly when introducing the tetrazine moiety into target structures. This is vital for creating novel compounds in pharmaceuticals, agrochemicals, and specialized materials. When you need to buy complex organic intermediates, this compound is a prime candidate.
  • Energetic Materials: The inherent energy release potential of tetrazine derivatives makes this compound a key intermediate in the development of energetic materials, including explosives and propellants. Researchers in this field rely on high-purity inputs for safe and effective formulation.
  • Analytical Chemistry: In specific analytical protocols, this tetrazine can be employed as a reagent due to its distinct chemical reactivity, aiding in detection or quantification processes.

Best Practices for Purchasing Chemical Intermediates

For chemists and laboratory managers tasked with procurement, several best practices ensure a successful purchase of 3,6-Dichloro-1,2,4,5-tetrazine:

  • Confirm CAS and Purity: Always verify that the CAS number is 106131-61-7 and the purity meets your experimental or production requirements (e.g., ≥97%).
  • Source from Reputable Suppliers: Prioritize manufacturers or distributors with a strong reputation for quality and reliability in the fine chemical market. Look for companies that provide detailed product specifications and Certificates of Analysis (COA).
  • Request Samples: For critical research projects, it is highly recommended to obtain a sample to test its suitability before committing to larger quantities.
  • Inquire About Pricing and Packaging: Understand the pricing structure for different quantities and packaging options. If you plan to buy in bulk, direct inquiries to manufacturers can offer significant cost savings.
  • Check Lead Times: Ensure that the supplier can meet your project timelines for delivery.

By approaching the purchase of 3,6-Dichloro-1,2,4,5-tetrazine with a clear understanding of its properties and applications, chemists can efficiently acquire the materials needed to drive their research forward. Engaging with trusted chemical suppliers ensures access to the high-quality intermediates that are fundamental to scientific discovery and innovation.