Decylamine (CAS 2016-57-1): Properties, Applications, and Synthesis of a Versatile Primary Amine
Explore the comprehensive profile of Decylamine, a key compound in organic synthesis and material science.
Get a Quote & SampleProduct Core Value
Decylamine
Decylamine (CAS 2016-57-1) is a primary aliphatic amine with a 10-carbon alkyl chain, serving as a crucial component in various chemical processes. Its unique structure balances hydrophobicity and hydrophilicity, making it valuable in diverse applications from industrial synthesis to advanced material development.
- Explore the key applications of Decylamine in organic synthesis, including its role in creating pharmacological compounds like dynole 2-24.
- Learn about its utility in material science, particularly as a modifier for nanocomposites and a template for mesoporous iron oxides.
- Discover its effectiveness as a corrosion inhibitor for zinc in acidic environments, a crucial property for metal protection.
- Understand the various synthesis methods for Decylamine, such as reductive amination and nitrile reduction, each with distinct advantages.
Advantages Provided by Decylamine
Versatile Organic Synthesis Reagent
Decylamine is a vital reagent in organic synthesis, enabling the creation of complex molecules and serving as a precursor for various derivatives, significantly contributing to advancements in chemical research.
Effective Corrosion Inhibitor
The compound demonstrates strong efficacy in inhibiting zinc corrosion in hydrochloric acid, offering essential protection for metallic materials in industrial settings, a key aspect of metal protection chemistry.
Key in Nanomaterial Development
As a modifier and template, Decylamine plays a significant role in the synthesis of advanced materials like nanocomposites and mesoporous structures, pushing the boundaries of materials science innovation.
Key Applications
Organic Synthesis
Used extensively in the synthesis of pharmacological compounds and chemical intermediates, showcasing its versatility in creating targeted molecular structures.
Nanomaterial Synthesis
Functions as a modifier and template for creating advanced materials like nanocomposites and mesoporous iron oxides, vital for cutting-edge material science.
Corrosion Protection
Acts as an effective inhibitor against zinc corrosion in acidic conditions, providing crucial protection for industrial metal components.
Surfactant Formulations
Its amphiphilic nature makes it suitable for developing surfactants and influencing interfacial properties in various chemical formulations.