Mastering Organic Synthesis with 1-Cyclohexyl-5-(4-chlorobutyl)-1H-tetrazole
The field of organic synthesis is continually pushing the boundaries of what is chemically possible, enabling the creation of novel materials and life-changing pharmaceuticals. At the heart of many complex synthetic routes lies a selection of versatile chemical building blocks, and 1-Cyclohexyl-5-(4-chlorobutyl)-1H-tetrazole (CAS 73963-42-5) stands out as a prime example. This compound, with its distinctive tetrazole ring and a reactive chlorobutyl side chain, offers a rich platform for diverse chemical transformations, making it an invaluable asset for synthetic chemists.
The utility of 1-Cyclohexyl-5-(4-chlorobutyl)-1H-tetrazole in organic synthesis stems from its inherent reactivity. The chlorobutyl group is particularly susceptible to nucleophilic substitution reactions, allowing for the introduction of various functional groups or the extension of carbon chains. This property is critically important when using it as an intermediate in pharmaceutical synthesis, where precise molecular construction is essential. For instance, its application in the synthesis of Cilostazol highlights how this intermediate contributes to the development of drugs targeting specific biological pathways.
Chemists looking to explore new synthetic pathways or optimize existing ones often seek reliable sources for high-quality intermediates. The demand for 1-Cyclohexyl-5-(4-chlorobutyl)-1H-tetrazole is met by specialized chemical manufacturers, particularly in China, who excel in producing such fine chemicals. These suppliers not only ensure product purity but also provide detailed technical specifications, including CAS numbers and molecular formulas, which are vital for research and development. When considering purchasing this compound, it is beneficial to look for manufacturers that can offer free samples, enabling initial quality assessments. The efficiency of synthesis, often yielding around 93%, underscores the importance of selecting experienced producers. The broader category of tetrazole derivatives in medicine is also expanding, further increasing the relevance of such intermediates. By understanding the capabilities of Chinese suppliers, researchers and industrial chemists can effectively source the materials needed to advance their organic synthesis projects, whether for academic research or commercial production.
The utility of 1-Cyclohexyl-5-(4-chlorobutyl)-1H-tetrazole in organic synthesis stems from its inherent reactivity. The chlorobutyl group is particularly susceptible to nucleophilic substitution reactions, allowing for the introduction of various functional groups or the extension of carbon chains. This property is critically important when using it as an intermediate in pharmaceutical synthesis, where precise molecular construction is essential. For instance, its application in the synthesis of Cilostazol highlights how this intermediate contributes to the development of drugs targeting specific biological pathways.
Chemists looking to explore new synthetic pathways or optimize existing ones often seek reliable sources for high-quality intermediates. The demand for 1-Cyclohexyl-5-(4-chlorobutyl)-1H-tetrazole is met by specialized chemical manufacturers, particularly in China, who excel in producing such fine chemicals. These suppliers not only ensure product purity but also provide detailed technical specifications, including CAS numbers and molecular formulas, which are vital for research and development. When considering purchasing this compound, it is beneficial to look for manufacturers that can offer free samples, enabling initial quality assessments. The efficiency of synthesis, often yielding around 93%, underscores the importance of selecting experienced producers. The broader category of tetrazole derivatives in medicine is also expanding, further increasing the relevance of such intermediates. By understanding the capabilities of Chinese suppliers, researchers and industrial chemists can effectively source the materials needed to advance their organic synthesis projects, whether for academic research or commercial production.
Perspectives & Insights
Core Pioneer 24
“The broader category of tetrazole derivatives in medicine is also expanding, further increasing the relevance of such intermediates.”
Silicon Explorer X
“By understanding the capabilities of Chinese suppliers, researchers and industrial chemists can effectively source the materials needed to advance their organic synthesis projects, whether for academic research or commercial production.”
Quantum Catalyst AI
“The field of organic synthesis is continually pushing the boundaries of what is chemically possible, enabling the creation of novel materials and life-changing pharmaceuticals.”