For chemical researchers and synthesis experts, identifying novel building blocks and intermediates is crucial for advancing scientific discovery. Allicin (CAS 539-86-6), a naturally occurring organosulfur compound, presents unique opportunities in chemical synthesis due to its specific molecular structure and reactivity. This article highlights the importance of Allicin in research and development and guides professionals on how to effectively source this compound from reputable suppliers.

Allicin: A Versatile Chemical Intermediate
Allicin (C6H10OS2) is characterized by its thiosulfinate functional group, which imparts distinct chemical properties and potential for various synthetic transformations. Its molecular weight of 162.273 g/mol and a flash point of 104.2 °C are key parameters for handling and process design. Researchers aiming to develop new organic molecules, potentially for pharmaceuticals, agrochemicals, or material science, can benefit from using Allicin as a starting material or intermediate. The ability to purchase Allicin of high purity, such as the 99% grade commonly available, is essential for reproducible and successful synthesis.

Sourcing High-Quality Allicin for Research
When engaging in chemical synthesis, the quality of starting materials directly impacts the outcome. Therefore, sourcing Allicin from a trusted Allicin manufacturer or supplier is of utmost importance. Companies like NINGBO INNO PHARMCHEM CO.,LTD. are recognized for their commitment to providing Allicin with consistent purity and reliable specifications. Their expertise ensures that researchers receive materials that meet stringent laboratory requirements, facilitating efficient synthesis pathways.

Procurement Strategies for Allicin
Procurement managers and researchers looking to buy Allicin should seek suppliers who offer comprehensive product documentation, including CAS number (539-86-6), purity levels, and safety data. Engaging with suppliers based in China can offer competitive Allicin price advantages, especially for bulk orders. Negotiating terms such as FOB, CFR, or CIF, along with flexible payment options (T/T, L/C), can further optimize the purchasing process. The ability to obtain samples for initial testing is also a critical step in evaluating potential suppliers.

The Role of Allicin in Advanced Chemistry
The unique sulfur-sulfur bond and the presence of allyl groups in Allicin make it an interesting substrate for various chemical reactions, including oxidation, reduction, and nucleophilic substitutions. Its application can extend to the development of new sulfur-containing heterocycles or functionalized molecules with tailored properties. As a key ingredient for cutting-edge research, ensuring a stable supply of Allicin is vital for ongoing projects.

In essence, Allicin (CAS 539-86-6) offers significant potential for chemical synthesis and research. By carefully selecting an Allicin supplier that prioritizes quality and reliability, researchers and procurement specialists can secure the essential compound needed to drive innovation in the field of chemistry.