Blog

Diallylamine: Characteristics, Preparation and Industrial Applications of Diallyl Substituted Amines

Diallylamine, also known as diallylamine and N,N-diallylamine, is a secondary alkylated derivative of allylamine. Its molecular formula is C₆H₁₁N, its simplified structural formula is (CH₂=CH-CH₂)₂NH, CAS number 124-02-7, and molar mass 97.16 g·mol⁻¹. As a bifunctional organic amine containing two allyl double bonds and one secondary amino group, it combines the high reactivity of allyl groups with the basic characteristics of secondary amines. Compared with primary allyl amines, the alkalinity after alkyl substitution is slightly weakened but the chemical stability is improved. At the same time, the double double bond structure gives it better polymerization and cross-linking capabilities. It has become a key intermediate in the fields of organic synthesis, polymer materials, water treatment, etc., filling the performance gap between monoallylamine and triallylamine.

Allylamine hydrochloride: properties and applications of stable organic amine derivatives

Allylamine Hydrochloride, also known as allylamine hydrochloride and 3-aminopropylene hydrochloride, is a protonated salt compound formed by the reaction of allylamine and hydrochloric acid. The molecular formula is C₃H₈ClN, and the simplified structural formula is CH₂=CH-CH₂-NH₃Cl. CAS No. 10017-11-5, molar mass 93.56 g·mol⁻¹. As an important derivative of allyl ammonia, it significantly improves chemical stability through protonation of the amino group, reduces volatility and irritation, and retains the reactivity of the allyl double bond. It has become a key intermediate that is easier to store and control in the fields of medicine, organic synthesis, polymer materials, etc., effectively making up for the shortcomings of free allyl ammonia that are lively and difficult to control.

Allylamine: Characteristics, preparation and application expansion of multifunctional organic amines

Allylamine, also known as allylamine and 3-aminopropene, is an aliphatic organic amine containing unsaturated double bonds and amino groups. Its molecular formula is C₃H₇N, its simplified structural formula is CH₂=CH-CH₂-NH₂, CAS No. 107-11-9, and its molar mass is 57.11 g·mol⁻¹. As a bifunctional compound with both olefin reactivity and amine basicity, it is a colorless and transparent liquid at room temperature with a strong ammonia smell and irritation. With its unique molecular structure, it plays a key role in the fields of organic synthesis, polymer materials, pharmaceutical and chemical industry, and is an important intermediate connecting basic organic synthesis and high-end functional materials.

Zinc powder: Characteristics, applications and industrial development of highly active metal powders

Zinc powder (Zn) is a light gray to dark gray metal elemental powder with a molecular formula of Zn, CAS number 7440-66-6, and a molar mass of 65.39 g·mol⁻¹. As a highly active powder material, it is insoluble in water and easily soluble in inorganic acids and alkali. With its excellent reducibility, conductivity and anti-corrosion properties, it plays a key role in anti-corrosion coatings, chemical synthesis, battery manufacturing and other fields. It is an important metal raw material connecting basic industry and high-end manufacturing. From anti-rust protection in traditional industries to functional upgrades in the new energy field, the industrial value of zinc powder continues to rise with technological iterations.

Zinc oxide: characteristics, applications and development trends of multifunctional inorganic materials

Zinc oxide (ZnO), commonly known as zinc white, is an inorganic compound composed of zinc and oxygen elements. The chemical formula is ZnO, CAS number 1314-13-2, and molar mass 81.4084 g·mol⁻¹. This substance, which appears as a white and odorless solid, is difficult to dissolve in water. However, it plays an important role in the process of human civilization due to its unique physical and chemical properties. From ancient coatings and medicinal uses to core materials in modern high-tech fields, its application scenarios continue to expand, becoming a multi-functional material spanning traditional industry and cutting-edge technology.