The intricate world of organic synthesis relies heavily on versatile building blocks that enable the construction of complex molecular architectures. Benzo[h]quinoline, identified by CAS number 230-27-3, is one such compound, valued for its unique heterocyclic structure and its utility as a synthetic intermediate. For chemists and material scientists, understanding its properties and sourcing it reliably from manufacturers is key to unlocking new chemical possibilities.

Benzo[h]quinoline, often appearing as an off-white to brown crystalline powder, presents a melting point range of 48-50°C. Its chemical formula C13H9N and molecular weight of approximately 179.22 g/mol provide chemists with a defined starting point for a multitude of reactions. The compound’s inherent aromaticity and the presence of a nitrogen atom within its fused ring system offer reactive sites that can be exploited for various functionalization strategies.

As a supplier, offering Benzo[h]quinoline means providing a key ingredient for numerous synthetic pathways. Its applications range from the preparation of specialized ligands for catalysis to the development of novel organic compounds with potential biological or material properties. When researchers or procurement specialists look to buy this chemical, they are often seeking high purity, typically 98% or 99%, to ensure the success and reproducibility of their reactions. Sourcing from established manufacturers in regions like China can offer a competitive edge in terms of both price and scale.

The value of Benzo[h]quinoline as an organic synthesis intermediate lies in its ability to undergo a variety of chemical transformations. Electrophilic aromatic substitution, nucleophilic additions, and metal-catalyzed cross-coupling reactions are just a few examples where this compound can serve as a core structure. For instance, modifications at specific positions on the quinoline ring can lead to derivatives with tailored electronic or optical properties, making it particularly relevant for fine chemical production and advanced materials research.

Procurement managers looking to source Benzo[h]quinoline should consider the total cost of ownership, which includes not only the unit price but also the reliability of supply and the quality assurance provided by the manufacturer. Inquiry for quotes and comparing offers from different suppliers can help in securing the best terms for bulk purchases. The availability of technical support from chemical manufacturers can also be invaluable, assisting with application-specific queries and troubleshooting.

In conclusion, Benzo[h]quinoline (CAS 230-27-3) is a cornerstone intermediate in modern organic synthesis. Its versatile chemical nature, combined with the increasing demand for high-purity materials in specialized industries, makes it a sought-after compound. By understanding its characteristics and engaging with reliable manufacturers and suppliers, researchers and companies can effectively integrate this critical building block into their synthetic strategies and product development pipelines.