Amines and organic synthesis

Question 1

Introduction to Amines

Question 2

which homologous series do amines belong to?

Answer 2

amines are a homologous series of organic molecules that contain a nitrogen atom

Question 3

if we replace the hydrogen atoms in ammonia by alkyl or aryl groups, what do we get?

Answer 3

we get different amines

Question 4

what is the simplest amine?

Answer 4

methylamine (CH3NH2)

Question 5

what type of amine is it?

Answer 5

primary amine

Question 6

what group do all primary amines have?

Answer 6

all primary amines contain the amino group (–NH2)

Question 7

How can we name simple amines?

Answer 7

using the alkyl group prefix

Question 8

when is a different prefix used, what is this prefix called?

Answer 8

is isomers exist the amino group is numbered and the prefix used is amino

Question 9

draw out 2 structures, ethylamine, propylamine, which of the two structures uses the prefix amino?

Answer 9

propylamine changes to 1-aminopropane

Question 10

Practice naming/ drawing the following amines:
1. 1-amino-2-methylpropane
2. phenylamine
3. phenylmethylamine

Question 11

How are amines classified?

Answer 11

primary, secondary or tertiary

Question 12

primary amines contain how many aryl or alkyl groups attached to the nitrogen atom?
Draw what this looks like?

Answer 12

1 aryl or alkyl group attached to the nitrogen atom

Question 13

which amines are the most important?

Answer 13

primary amines

Question 14

Why are the boiling points lower for the corresponding alcohol?

Answer 14

because hydrogen bonding is not as strong

Question 15

How many aryl or alkyl groups do secondar amines have attached to the nitrogen atom?
Draw what this looks like

Answer 15

Contain 2 aryl or alkyl groups attached to the nitrogen atom

Question 16

give 2 examples of a secondary amine, and draw each structure out?

Answer 16

• N-ethylaminoethane
• N-methylanimoethane

Question 17

In tertiary amines, how many aryl or alkyl groups are attached to the nitrogen atom?

Answer 17

3

Question 18

Give an example of a tertiary amine? Draw out the structure of this amine

Answer 18

N,N-dimethylaminomethane

Question 19

what are the 3 properties of amines?

Answer 19

• can act as bases
• can act as nucleophiles
• can act as ligands

Question 20

what do the properties of nitrogen depend on?

Answer 20

depned on the ability of nitrogen atom to donate a lone pair of it’s electrons to other species

Question 21

explain what happens when a nitrogen atoms acts as a base?

Answer 21

when amines act as bases the lone pair is donated to a proton (H+)

Question 22

explain what happens when a nitrogen atom acts as a nucleophile?

Answer 22

when amines act as nucleophiles the lone pair is donated to an electron deficient carbon atom

Question 23

explain what happens when a nitrogen atom acts as a ligand?

Answer 23

when amines act as ligands the lone pair is donated to a transition metal ion

Question 24

what type of bases does amines and ammonia act as?

Answer 24

Bronstead-Lowry bases

Question 25

what are bronstead lowry bases?

Answer 25

proton acceptors

Question 26

why does amines and ammonia act as a Bronstead lowry base?

Answer 26

they act as Bronstead-Lowry bases because the lone pair of electrons on the nitrogen atom allows them to accept a proton

Question 27

Draw a diagram to show how they act as bases?

Question 28

amines are also what type of bases?

Answer 28

Lewis bases - electron pair donors

Question 29

Why do amines react with acid?

Answer 29

Because they are bases

Question 30

what does amines and Acid make?

Answer 30

Soluble ionic salts

Question 31

questions:
1.methylamine + HCL –>
2. ethylamine + HNO3 –>
3. phenylamine + HCL –>
4. ethylamine + H2SO4 –>

Question 32

what does amines in water make?

Answer 32

an alkaline solution

Question 33

why does amines in water make an alkaline solution?
Show this reaction between methylamine + water –>

Answer 33

because there are OH- ions present

e.g CH3NH2 + H20 –> CH3NH3+ + OH-

Question 34

what does the base strength of amines depend on?

Answer 34

depends on the availability of the lone pair of electrons on the nitrogen atom for protonation

Question 35

stronger bases have …?

Answer 35

increased availability of the lone pair

Question 36

are primary aliphatic amines stronger bases or ammonia?

Answer 36

primary aliphatic molecules

Question 37

why are primary aliphatic amines stronger bases than ammonia?

Answer 37

• Primary aliphatic molecules are stronger bases than ammonia due to the presence of the alkyl group
• alkyl groups are electron releasing and increase the availability of the lone pair
• the effect increases with alkyl chain length

Question 38

what increases as the chain length increases?

Answer 38

increases the availability of the lone pair more

Question 39

are tertiary amines or secondary amines stronger bases?

Answer 39

yes tertiary are stronger bases

Question 40

are secondary amines or primary amines stronger bases?

Answer 40

secondary amines

Question 41

describe why tertiary amines are stronger bases than secondary amines and why secondary amines are stronger than primary amines?

Answer 41

• tertiary amines are stronger bases than secondary amines which are stronger bases than primary amines.
• this is because with more alkyl groups attached to the nitrogen the availability of the lone pair is increased due to increased electron releasing

Question 42

Are primary aromatic amines or ammonia stronger bases

Answer 42

Primary aromatic molecules are weaker bases than ammonia

Question 43

explain why Primary aliphatic molecules are weaker bases than ammonia?

Answer 43

• Primary aliphatic molecules are weaker bases than ammonia
• this is because the lone pair on the nitrogen atom get’s involved in aromatic delocalisation.
• the lone pair is less available due to delocalisation

Question 44

why is phenylmethylamine a similar strength to primary aliphatic molecules?

Answer 44

Phenylmethylamine (C9H5CH2NH2) the nitrogen atom is not directly attached to the ring so the lone pair does nt become delocalised and the base strenght is similar to aliphatic amines

Question 45

what can we use to compare relative base strengths of amines?

Answer 45

Pka values

Question 46

Stronger bases have …? pKa values

Answer 46

Higher

Question 47

what is the pKa of propylamine methylamine ammonia and phenylamine, order them in decreasing strength?

Answer 47

propylamine (10.84) > methylamine (10.64) > Ammonia (9.25) > Phenylamine (4.62)

Question 48

How can we calculate the pKa from Ka?

Answer 48

-log[Ka]

Question 49

what equilibrium does pKa values refer to?

Answer 49

RNH3+ —-> RNH2 + H+

Question 50

Preparing Primary amines

Question 51

what is a good method for making primary aliphatic amines?

Answer 51

in a 2 step synthesis: n
1. reaction of a haloalkane with potassium cyanide (aq alcoholic conditions ) via Nucleophilic substitution (cyanide ion :CN- nucleophile) formation of a nitrile RC≡N (increase in carbon chain length)
2. reduction of the nitrile to a primary amine via catalytic hydrogenation (H2/Ni catalyst)

Question 52

Draw out the reaction to form a primary amine from 1-iodopropane

Answer 52

butanenitrile formed which is then reduced to form butylamine

Question 53

How are Primary aromatic amines formed?

Answer 53

usually made by the reduction of nitro compounds
-but can also be reduced from a Benzonitrile to Phenylmethylamine

Question 54

What reagent is not powerful enough to reduce CN group?

Answer 54

NaBH4 but LiBH4 is!!!

Question 55

How can nitro groups be reduced?

Answer 55

1. catalytic hydrogenation (H2/ Ni catalyst)
2. using metal acid combinations (e.g Sn/Fe and HCL )

Question 56

Show the reduction of nitrobenzene and 3-nitro 1-phenylethanone

Question 57

why is metal acid combos a better alternative to using Catalytic hydrogenation for 3-nitro 1-phenylethanone

Answer 57

• metal acid combos can be used to selectively reduce the nitro group in benzene
• in the above example we can not use catalytic hydrogenation because the ketone group would also be reduced to a 2° alcohol.
• And metal acid combinations are weaker reducing agents and will not reduce the ketone (only reduce the nitro group)

Question 58

what are the uses of primary aromatic amines?

Answer 58

• very useful intermediate in organic synthesis
• used to make synthetic dyes (azo dyes)

Question 59

what is the rubbish way of making primary amines?

Answer 59

reaction of a haloalkane with excess ammonia in a sealed container
(primary amines are formed as the major product)

Question 60

why can ammonia undergo nucleophilic substitution?

Answer 60

• ammonia (:NH3) has a lone pair of electrons on it’s nitrogen atom and is a nucleophile
• the ammonia nucleophile attacks the electron deficient carbon atom (δ+) (polar-polar carbon-halogen bond) and substitution takes place

Question 61

Draw out the full reaction mechanism to show how chloropropane reacts with ammonia to form a primary amine

Question 62

when primary amines are made this way what can they act as?

Answer 62

primary amines have a lone pair of electrons on the nitrogen atom and can themselves act as nucleophiles and can go and react with another haloalkane

Question 63

what does this primary amine form when reacted with another haloalkane?

Answer 63

a secondary amine is formed via nucleophilic substitution

Question 64

the secondary amine product then goes..?

Answer 64

and attacks another haloalkane molecule via nucleophilic substitution to make a tertiary amine

Question 65

the tertiary amine formed then goes..?

Answer 65

Attacks another haloalkane via nucleophillic substitution

Question 66

What product is made?

Answer 66

a quaternary ammonium salt

Question 67

why can this not behave as a nucleophile?

Answer 67

no lone pair on the nitrogen atom so cannot behave as a nucleophile

Question 68

what is the shape of this Cation?

Answer 68

the cation has a tetrahedral shape

Question 69

what are the uses of quaternary ammonium salts?

Answer 69

used as cationic surfactants in fabric conditioners and hair products

Question 70

How do cationic surfactants reduce static?

Answer 70

cationic surfactants coat the surface of the clothes or hair (with positive charges) and reduce the static due to negatively charged electrons.

Question 71

what do quaternary ammonium salts that are used for cationic surfactants usually have?

Answer 71

usually have 2 long alkyl chains and 2 short alkyl chains

Question 72

controlling the products of the reaction of ammonia

Answer 72

Subheading

Question 73

what is formed when Haloalkane reacts with ammonia?

Answer 73

a mixture of products is usually formed

Question 74

How can the mixture be separated?

Answer 74

with difficulty

Question 75

How is the possibility of further substitution reduced and a higher yield

Answer 75

if a large excess of ammonia is used

Question 76

How is a high yield of quaternary ammonium obtained?

Answer 76

By using a large excess of haloalkane

Question 77

Amines and ammonia as nucleophiles

Question 78

amines and ammonia act as..?

Answer 78

Nucleophiles

Question 79

what are nucleophiles?

Answer 79

nucleophiles have a lone pair of electrons that they can donate to form a covalent bond

Question 80

Amines and ammonia undergo?

Answer 80

1. nucleophilic substitution reactions with haloalkanes
2. nucleophilic addition-elimination reaction with acyl chlorides and acid anhydrides

Question 81

Amines and ammonia undergo what reaction with acyl chlorides and acid anhydrides?

Answer 81

Nucleophilic-addition-elimination reactions

Question 82

Ammonia and amines undergo nucleophilic substitution reactions with haloalkanes

Answer 82

Title

Question 83

when haloalkanes are warmed with an excess of ammonia in a sealed container, what is formed?

Answer 83

primary amines are formed as the major product

Question 84

what is formed when 1-chloropropane reacts with Ammonia?
Draw the word equation

Answer 84

CH3CH2CH2CL + 2NH3 —> CH3CH2CH2NH2 + NH4CL

Question 85

why can ammonia attack the haloalkane?

Answer 85

• ammonia has a lone pair of electrons on the nitrogen atom and is a nucleophile
• the ammonia nucleophile attacks the electron deficient δ+ carbon atom (polar carbon-halogen bond) and substitution takes place

Question 86

draw the mechanism to show how 1-chloropropane reacts with ammonia

Question 87

what primary amine is formed?

Answer 87

CH3CH2CH2NH2 (1- aminopropane)

Question 88

why can primary amines act as nucleophiles themselves?

Answer 88

primary amines have a lone pair of electrons on the nitrogen atom

Question 89

the primary alkane can go on to react with another 1-chloropropane to make..?

Answer 89

a secondary amine (CH3CH2CH2)2NH - N-propylaminopropane and (propylammonium chloride)

Question 90

Draw the next part of the mechanism to show the further substitution reaction between 1-aminopropane and haloalkane

Question 91

what makes the secondary amine product a good nucleophile?

Answer 91

has 2 electron releasing alkyl groups so can go and react with another 1-chloropropane molecule

Question 92

what is formed?

Answer 92

a tertiary amine (CH3CH2CH2)3N - N,N-dipropylaminopropane and (CH3CH2CH2)2NH2CL (Dipropylammonium chloride)

Question 93

this tertiary amine can go and react with more haloalkane to form..?

Answer 93

a quaternary ammonium salt (CH3CH2CH2)4N+ CL-

Question 94

Why can the quaternary ammonium salt not be a nucleophile?

Answer 94

there is no lone pair on the nitrogen of the quaternary ammonium so it can not behave as a nucleophile

Question 95

controlling the products of reaction of ammonia with a haloalkane

Answer 95

title

Question 96

when is multiple substitution favoured?

Answer 96

if there is an excess of haloalkane

Question 97

formation of a secondary amine is favoured if there is an excess of..?

Answer 97

Haloalkane

Question 98

when is the formation of the tertiary amine favoured?

Answer 98

if there is an excess Haloalkane

Question 99

Ammonia and amines undergo nucleophilic addition-elimination reactions with acyl chlorides and acid anhydrides

Answer 99

title

Question 100

draw out the word equation to show how ethanoyl chloride reacts with ammonia?

Answer 100

ethanoyl chloride + ammonia –> ethanamide + ammonium chloride

CH3COCL + 2NH3 –> CH3CONH2 + NH4CL

Question 101

draw the mechanism to show the above reaction

Question 102

draw out the word equation to show the reaction between ethanoyl chloride and methylamine?

Answer 102

ethanoyl chloride + methylamine –> N-methylethanamide + methyl-ammonium chloride

CH3COCL + 2CH3NH2 —> CH3CONHCH3 + CH3NH3+CL-

Question 103

Draw the mechanism to show the above reaction

Question 104

what are primary aromatic amines used to make?

Answer 104

synthetic dyes (azo dyes)

Question 105

what are the uses of quaternary ammonium salts?

Answer 105

are used as cationic surfactants in fabric conditioners and hair products

Question 106

amines are used to make polymers such as..?

Answer 106

polyurethanes and polyamides

Question 107

what are examples of polyurethanes?

Answer 107

cavity wall insulation, lycra etc

Question 108

what are examples of polyamides?

Answer 108

nylon fibres for clothes, carpets, toothbrushes

Question 109

what are other uses of amines?

Answer 109

used to make many drugs such as pethidine a painkiller

Question 110

Organic synthesis

Question 111

what is the role of organic chemists

Answer 111

organic chemists need to find efficient (and cost effective) ways of synthesising useful complex organic compounds from simple starting materials

Question 112

why do we need to do organic synthesis?

Answer 112

we need to be able to work out and piece together synthetic routes to molecules using all reactions we have encountered in Y12 and Y13

Question 113

How many steps can an organic synthesis question have?

Answer 113

several steps

Question 114

why do chemists design specific synthetic routes?

Answer 114

chemists try to design synthetic routes that use non-hazardous starting material

Question 115

why do chemists use non-hazardous starting materials?

Answer 115

to make processes safer and also to reduce any impact on the environment

Question 116

what else do chemists try to use?

Answer 116

also try use steps that do not require a solvent

Question 117

why is this?

Answer 117

such steps avoid waste and and the need to separate the solvent at the end of the reaction. Solvents can also be a risk to safety as they’re often flammable and toxic

Question 118

what do chemists aim to design?

Answer 118

chemists aim to design production methods that have high atom economies and high percentage yields

Question 119

why is this?

Answer 119

such processes convert more of the starting materials into useful products and are less wasteful

Question 120

For the following questions, outline and draw out the mechanisms and state the reaction conditions needed

Question 121

FINISHED