Knowt
Amines:
Types of amines:
they are derived from ammonia molecules and they all contain a nitrogen atom.
primary amines
Only one of the hydrogens in an ammonia molecule has been replaced with an alkyl group
secondary amines
two of the hydrogens in an ammonia molecule have been replaced with an alkyl group
tertiary
all 3 of the hydrogens in an ammonia molecule have been replaced with an alkyl group
quaternary
there are 4 alkyl groups around the nitrogen atom and the nitrogen has a positive charge
aromatic amines
they are primary amines
they contain a benzene ring
non aromatic amines are known as aliphatic amines
cationic surfactants
quaternary ammonia salts are used in cleaning products
when they have a long hydrocarbon tail they are referred to as cationic surfactants
they are made from a positive end group and are attracted to negative ions
eg. tetramethylammonium chloride
they work using their polarities
the non-polar head is attracted to the oil/grease
the polar head is attracted to the water
they allow the oil and water to mix to remove it from clothes, skin ect.
they make an emulsion
this is because they let water and oil mix
they also remove static
the positive ammonium ion is attracted to negatively charged hair and fibres
that allows it to remove static
it is used in conditioner and fabric conditioner
amines as bases:
they accept H+ ions
this is because they have a lone pair of electrons that allows them to do so
the proton bonds through a coordinate bond where both electrons come from the lone pair
the strength of the base depends on how available the lone pair is on the nitrogen
the higher the electron density the more available the electrons are
the type of group that is bonded to the nitrogen decides the electron density
aromatic amines —> ammonia —> primary aliphatic amines (weakest to strongest)
aromatic amines
they pull electrons away from the nitrogen into the ring
the electron density at the nitrogen is reduced so they are less basic
they attract the proton the least
aliphatic amines
alkyl groups push electrons towards the nitrogen.
the electron density at the nitrogen increases so they are more basic
they attract the proton the most
THEY ARE ALSO NUCLEOPHILES
this is because of the lone pair of electrons
preparation of aliphatic amines
they are made in two ways
reacting a halogenoalkane with excess ammonia
reducing a nitrile
reaction of a halogenoalkane with excess ammonia
ammonia attacks the partially positive carbon
then an intermediate is formed with a positive nitrogen and a Br- ion
second ammonia then reacts with the hydrogen to remove it.
a reaction of a halogenoalkane with excess ammonia may produce impure products
it can produce secondary, tertiary, and quaternary salts as well
this is because primary amines still have a lone pair and can still act as a nucleophile
the amine can then react with any other halogenoalkanes to make salts
the mechanism is the same for the continued reaction but instead of two ammonia molecules its 2 amines
eg. (CH3CH2)2NH + CH3CH2Br ➔ (CH3CH2)3N + HBr
reducing nitriles
this is the cheapest way to make primary amines
it uses hydrogen gas and a nickel or platinum catalyst
the reaction is called catalytic hydrogenation
it only produces primary amines
a pure prodyct
eg.R-C≡N + 4[H] ➔ R-CH2-NH2
using a strong reducing agent
the method is more expensive as LiAlH4 is expensive
the reducing agent is dissolved in a non-aqeous solvent
production of aromatic amines:
they are made with the reduction of a nitro compound
nitrobenzene is reduced to make an aromatic amine
step 1:
heat nitrobenzene under reflux with concentrated HCl and tin to form a salt
6 reducing agents are used
Step 2:
the salt reacts with an alkali to produce an aromatic amine such as phenylamine
amides:
they are derivatives of carboxylic acids
their functional group is -CONH2
has an NH2 instead of the OH group of carboxylic acids
N-substituted amides
one of the hydrogens is replaced with an alkyl group
production:
made from an acyl chloride and ammonia
Amines:
Types of amines:
they are derived from ammonia molecules and they all contain a nitrogen atom.
primary amines
Only one of the hydrogens in an ammonia molecule has been replaced with an alkyl group
secondary amines
two of the hydrogens in an ammonia molecule have been replaced with an alkyl group
tertiary
all 3 of the hydrogens in an ammonia molecule have been replaced with an alkyl group
quaternary
there are 4 alkyl groups around the nitrogen atom and the nitrogen has a positive charge
aromatic amines
they are primary amines
they contain a benzene ring
non aromatic amines are known as aliphatic amines
cationic surfactants
quaternary ammonia salts are used in cleaning products
when they have a long hydrocarbon tail they are referred to as cationic surfactants
they are made from a positive end group and are attracted to negative ions
eg. tetramethylammonium chloride
they work using their polarities
the non-polar head is attracted to the oil/grease
the polar head is attracted to the water
they allow the oil and water to mix to remove it from clothes, skin ect.
they make an emulsion
this is because they let water and oil mix
they also remove static
the positive ammonium ion is attracted to negatively charged hair and fibres
that allows it to remove static
it is used in conditioner and fabric conditioner
amines as bases:
they accept H+ ions
this is because they have a lone pair of electrons that allows them to do so
the proton bonds through a coordinate bond where both electrons come from the lone pair
the strength of the base depends on how available the lone pair is on the nitrogen
the higher the electron density the more available the electrons are
the type of group that is bonded to the nitrogen decides the electron density
aromatic amines —> ammonia —> primary aliphatic amines (weakest to strongest)
aromatic amines
they pull electrons away from the nitrogen into the ring
the electron density at the nitrogen is reduced so they are less basic
they attract the proton the least
aliphatic amines
alkyl groups push electrons towards the nitrogen.
the electron density at the nitrogen increases so they are more basic
they attract the proton the most
THEY ARE ALSO NUCLEOPHILES
this is because of the lone pair of electrons
preparation of aliphatic amines
they are made in two ways
reacting a halogenoalkane with excess ammonia
reducing a nitrile
reaction of a halogenoalkane with excess ammonia
ammonia attacks the partially positive carbon
then an intermediate is formed with a positive nitrogen and a Br- ion
second ammonia then reacts with the hydrogen to remove it.
a reaction of a halogenoalkane with excess ammonia may produce impure products
it can produce secondary, tertiary, and quaternary salts as well
this is because primary amines still have a lone pair and can still act as a nucleophile
the amine can then react with any other halogenoalkanes to make salts
the mechanism is the same for the continued reaction but instead of two ammonia molecules its 2 amines
eg. (CH3CH2)2NH + CH3CH2Br ➔ (CH3CH2)3N + HBr
reducing nitriles
this is the cheapest way to make primary amines
it uses hydrogen gas and a nickel or platinum catalyst
the reaction is called catalytic hydrogenation
it only produces primary amines
a pure prodyct
eg.R-C≡N + 4[H] ➔ R-CH2-NH2
using a strong reducing agent
the method is more expensive as LiAlH4 is expensive
the reducing agent is dissolved in a non-aqeous solvent
production of aromatic amines:
they are made with the reduction of a nitro compound
nitrobenzene is reduced to make an aromatic amine
step 1:
heat nitrobenzene under reflux with concentrated HCl and tin to form a salt
6 reducing agents are used
Step 2:
the salt reacts with an alkali to produce an aromatic amine such as phenylamine
amides:
they are derivatives of carboxylic acids
their functional group is -CONH2
has an NH2 instead of the OH group of carboxylic acids
N-substituted amides
one of the hydrogens is replaced with an alkyl group
production:
made from an acyl chloride and ammonia
