Boron chemistry has opened up fascinating avenues in organic synthesis, offering unique structural motifs and reactivity patterns. Among these, carboranes, specifically closo-dicarbadodecaboranes, stand out due to their remarkable stability and diverse functionalities. This article focuses on 1,7-Dicarbadodecaborane (CAS 16986-24-6), exploring its role as a critical intermediate and a valuable building block for innovative chemical compounds. For researchers and procurement managers looking to buy high-quality chemical intermediates, understanding the potential of such molecules is key.

1,7-Dicarbadodecaborane, often referred to by its synonyms like m-Carborane, presents a stable polyhedral structure featuring a framework of boron and carbon atoms. This unique architecture imparts significant thermal stability and resistance to oxidation, making it an attractive component in demanding synthetic processes. Its molecular formula, C2H12B10, hints at the rich boron chemistry it embodies. As a white crystalline powder, it is typically handled with standard laboratory precautions.

The utility of 1,7-Dicarbadodecaborane spans several crucial sectors. In pharmaceutical research, it serves as an intermediate for synthesizing novel drug candidates. The incorporation of boron clusters into molecules can influence their pharmacokinetic properties, target specificity, and even therapeutic efficacy. For example, research has explored carborane derivatives in areas like hormone receptor modulation and as potential agents in boron neutron capture therapy (BNCT), a targeted cancer treatment. When you seek to purchase pharmaceutical intermediates, the reliable supply of compounds like m-Carborane is paramount.

Beyond pharmaceuticals, this boron cluster is invaluable in advanced chemical synthesis for materials science. Its inherent stability and electronic properties make it a candidate for developing polymers, catalysts, and other high-performance materials. The ability to precisely integrate this structure into larger molecules allows for the fine-tuning of material properties, opening doors for innovation in electronics, aerospace, and beyond. If your company is looking to buy specialized organic reagents for these cutting-edge applications, ensuring a consistent supply from a reputable manufacturer is crucial.

Procuring 1,7-Dicarbadodecaborane requires attention to purity and supplier reliability. As a dedicated supplier of fine chemicals, we offer 1,7-Dicarbadodecaborane with high purity (typically 98% or higher), ensuring that your synthetic processes yield predictable and reproducible results. We understand the importance of a stable supply chain, particularly for R&D departments and manufacturing facilities. By sourcing directly from us, you gain access to a dependable manufacturer and supplier in China, known for its commitment to quality and customer service.

In conclusion, 1,7-Dicarbadodecaborane is more than just a chemical intermediate; it's a gateway to advanced synthesis and novel material development. Whether your focus is on pharmaceutical innovation or cutting-edge materials, ensuring you have a reliable source to buy this versatile boron cluster is essential. We are committed to providing researchers and industry professionals with the high-quality chemicals needed to drive scientific progress.