Poly-amines are more durable, poly-amides are more resistant to moisture.
Amines are a broad class of organic compounds that vary in their properties and toxicity. Some amines can be hazardous if handled improperly, especially in high concentrations or if they are toxic or corrosive. It is important to follow proper safety precautions when working with amines.
Amines are produced when a hydrogen atom in ammonia has been replaced by an alkyl or aryl group. Examples of amines are biogenic amines, amino acids and aniline.
German's won the battle of amines
Aliphatic amines are stronger bases than aromatic amines because the lone pair on the nitrogen atom in aliphatic amines is more available for donation due to the absence of resonance effects that stabilize the lone pair in aromatic amines. This makes aliphatic amines more likely to accept protons and act as bases.
Secondary amines produce N-alkyl-substituted formamides, while tertiary amines form N-alkyl-substituted chloroformamides when heated with chloroform.
Not necessarily. Amines contain nitrogen, but many do not contain oxygen.
Amines + Nitrates/Nitrites = carcinogenic nitrosamines
Amines are electron-donating in chemical reactions.
When amines are subjected to heat, they can undergo thermal degradation, leading to the formation of byproducts such as primary amines and ammonia. Additionally, higher temperatures can promote elimination reactions in amines, resulting in the formation of alkenes.
Bcoz alipatic amines require very low temperature like about -25 degrees celsius...which is difficult to maintain.....thats y its not posible to form diazonium salt with aliphatic amines...where as for aromatic amines its posible as temperature range is 0 - 5 degres..
Amines are considered to be basic because they can accept protons (H) in a chemical reaction.