In the realm of chemical synthesis and materials science, specific intermediates play pivotal roles in enabling the creation of advanced compounds and materials. One such compound is 1,2,4,5-Tetramercaptobenzol, identified by its CAS number 20133-21-5. This article will provide an in-depth look at its essential properties and diverse applications, highlighting its importance for researchers and industrial chemists. We also touch upon the benefits of sourcing this chemical from experienced manufacturers.

Physical and Chemical Characteristics

1,2,4,5-Tetramercaptobenzol, chemically C6H6S4, is a sulfur-rich organic compound. Its molecular weight is approximately 206.37200. A key characteristic for its handling and application is its melting point, which falls between 139-141 °C. This solid nature, combined with a predicted boiling point of around 395.7±42.0 °C, offers practical advantages in many laboratory and industrial settings. The compound is typically supplied with a purity of 97% minimum, ensuring its suitability for precise chemical reactions where impurity levels can significantly impact outcomes. As a 1,2,4,5-Benzenetetrathiol derivative, it contains four highly reactive thiol groups, making it a versatile building block.

Applications and Industrial Relevance

The utility of 1,2,4,5-Tetramercaptobenzol spans several scientific and industrial sectors, primarily as a versatile chemical intermediate:

  • Advanced Organic Synthesis: Its four thiol functional groups make it an excellent starting material for constructing complex molecular architectures. Organic chemists utilize it to introduce multiple sulfur linkages or as a scaffold for further chemical modifications.
  • Materials Science Innovations: Researchers in materials science often leverage multifunctional molecules like this for developing new polymers, coordination compounds, and porous materials such as metal-organic frameworks (MOFs). The thiol groups can readily bind to metal ions or participate in cross-linking reactions.
  • Specialty Chemical Production: It finds application in the synthesis of specialized chemicals for niche industrial purposes, where its unique sulfur content and structure are advantageous.
  • Research and Development: Laboratories engaged in cutting-edge chemical research frequently require such intermediates for exploratory synthesis and the development of new chemical entities.

When considering the purchase of 1,2,4,5-Tetramercaptobenzol, it is crucial to source from reliable manufacturers who can guarantee the specified purity and consistent quality. Companies that can provide technical support and timely delivery from their manufacturing base in China offer significant advantages to global buyers. For those seeking a dependable supplier of this essential chemical intermediate, exploring options from established manufacturers ensures project continuity and quality assurance.