Download m4 phenol and diazo salts

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Homoaromaticity wikipedia , lookup

Hydroformylation wikipedia , lookup

Haloalkane wikipedia , lookup

Ring-closing metathesis wikipedia , lookup

Wolff rearrangement wikipedia , lookup

Wolff–Kishner reduction wikipedia , lookup

Petasis reaction wikipedia , lookup

Alcohol wikipedia , lookup

Tiffeneau–Demjanov rearrangement wikipedia , lookup

Phenols wikipedia , lookup

Strychnine total synthesis wikipedia , lookup

Nucleophilic acyl substitution wikipedia , lookup

Aromaticity wikipedia , lookup

Aromatization wikipedia , lookup

Transcript
PHENOL
CONTENTS
• Prior knowledge
• Synthesis from benzene
• Reactions of the OH group
• Reactions of the ring
• Benzene diazonium chloride - preparation
• Benzene diazonium chloride - reactions
• Revision check
PHENOL
Before you start it would be helpful to…
• know the functional groups found in organic chemistry
• know the arrangement of bonds around atoms
• recall and explain electrophilic substitution of aromatic rings
PHENOL
Structure
phenol is an aromatic alcohol with formula C6H5OH
the OH group is attached directly to the benzene ring
it is an almost colourless crystalline solid
PHENOL
Structure
phenol is an aromatic alcohol with formula C6H5OH
the OH group is attached directly to the benzene ring
it is an almost colourless crystalline solid
Preparation
You cannot put an OH group directly onto a benzene ring by
electrophilic substitution, so phenol has to be synthesised in
a multi-stage process
PHENOL
Structure
phenol is an aromatic alcohol with formula C6H5OH
the OH group is attached directly to the benzene ring
it is an almost colourless crystalline solid
Preparation
You cannot put an OH group directly onto a benzene ring by
electrophilic substitution, so phenol has to be synthesised in
a multi-stage process
1
Step 1 - Nitration of benzene
reagents
conc. nitric acid and conc. sulphuric acid (catalyst)
conditions
reflux at 55°C
equation
C6H6 + HNO3
——>
C6H5NO2 + H2O
mechanism
electrophilic substitution
PHENOL
Structure
phenol is an aromatic alcohol with formula C6H5OH
the OH group is attached directly to the benzene ring
it is an almost colourless crystalline solid
Preparation
You cannot put an OH group directly onto a benzene ring by
electrophilic substitution, so phenol has to be synthesised in
a multi-stage process
2
Step 2 - Reduction of nitrobenzene
reagents
tin and conc. hydrochloric acid
conditions
reflux
equation
C6H5NO2 + 6 [H] ——> C6H5NH2
mechanism
reduction
+ 2H2O
PHENOL
Structure
phenol is an aromatic alcohol with formula C6H5OH
the OH group is attached directly to the benzene ring
it is an almost colourless crystalline solid
Preparation
You cannot put an OH group directly onto a benzene ring by
electrophilic substitution, so phenol has to be synthesised in
a multi-stage process
3
Step 3 - Diazotisation of phenylamine
reagents
nitrous acid and hydrochloric acid (use sodium nitrite)
conditions
keep below 10°C
equation
C6H5NH2 + HNO2 + HCl ——> C6H5N2+ Cl¯ + 2H2O
reaction type
diazotisation
PHENOL
Structure
phenol is an aromatic alcohol with formula C6H5OH
the OH group is attached directly to the benzene ring
it is an almost colourless crystalline solid
Preparation
You cannot put an OH group directly onto a benzene ring by
electrophilic substitution, so phenol has to be synthesised in
a multi-stage process
4
Step 4 - Substitution of diazo group by OH
reagents
water
conditions
warm above 10°C
equation
C6H5N2+ Cl¯ + H2O ——> C6H5OH
reaction type
hydrolysis / substitution
+
N2 + HCl
PHENOL - REACTIONS OF THE OH GROUP
Water
phenol is a weak acid
it dissolves very slightly in water to form a weak acidic solution
it is a stronger acid than aliphatic alcohols
the ring helps weaken the O-H bond and stabilises the resulting anion
C6H5OH(aq)
C6H5O¯(aq)
+
H+(aq)
PHENOL - REACTIONS OF THE OH GROUP
Water
phenol is a weak acid
it dissolves very slightly in water to form a weak acidic solution
it is a stronger acid than aliphatic alcohols
the ring helps weaken the O-H bond and stabilises the resulting anion
C6H5OH(aq)
NaOH
C6H5O¯(aq)
+
H+(aq)
phenol reacts with sodium hydroxide to form a salt - sodium phenoxide
it is ionic and water soluble
C6H5OH(aq) + NaOH(aq) ——> C6H5O¯ Na+(aq) + H2O(l)
PHENOL - REACTIONS OF THE OH GROUP
Water
phenol is a weak acid
it dissolves very slightly in water to form a weak acidic solution
it is a stronger acid than aliphatic alcohols
the ring helps weaken the O-H bond and stabilises the resulting anion
C6H5OH(aq)
NaOH
C6H5O¯(aq)
+
H+(aq)
phenol reacts with sodium hydroxide to form a salt - sodium phenoxide
it is ionic and water soluble
C6H5OH(aq) + NaOH(aq) ——> C6H5O¯ Na+(aq) + H2O(l)
Sodium phenol reacts with sodium to form an ionic salt - sodium phenoxide
hydrogen is also produced
this reaction is similar to that with aliphatic alcohols such as ethanol
2C6H5OH(s)
+
2Na(s)
——>
2C6H5O¯ Na+(s)
+
H2(g)
PHENOL - REACTIONS OF THE AROMATIC RING
ELECTROPHILIC SUBSTITUTION
Bromine
the OH group is electron releasing
it increases the electron density of the delocalised system
it makes substitution much easier compared to benzene
the electron density is greatest at the 2,4 and 6 positions
substitution takes place at the 2,4 and 6 positions
phenol reacts readily with bromine water WITHOUT A CATALYST
it is so easy that multiple substitution takes place
other electrophiles such as NO2+ react in a similar way
BENZENE DIAZONIUM CHLORIDE
Structure
has the formula C6H5N2+ Cl¯
a diazonium group is attached to the ring
the aromatic ring helps stabilise the ion
PREPARATION
reagents
conditions
equation
phenylamine, nitrous acid and hydrochloric acid
keep below 10°C
C6H5NH2 + HNO2 + HCl ——> C6H5N2+ Cl¯ + 2H2O
notes
nitrous acid is unstable and is made in situ from sodium nitrite
C6H5NH2 + NaNO2 + 2HCl ——> C6H5N2+ Cl¯ + NaCl + 2H2O
the solution is kept cold to slow down decomposition
of the diazonium salt
C6H5N2+ Cl¯ +
H2O ——>
C6H5OH
+
HCl
+
N2
DIAZONIUM SALTS - REACTIONS
Benzene diazonium chloride undergoes two main types of reaction
SUBSTITUTION OF
THE DIAZONIUM GROUP
nitrogen expelled
COUPLING REACTIONS
nitrogen atoms are retained
DIAZONIUM SALTS - SUBSTITUTION
OH
reagents
conditions
equation
use
I
reagents
conditions
equation
water (hydrolysis)
warm above 10°C
C6H5N2+ Cl¯ + H2O ——>
C6H5OH
+
HCl
+
the only reasonably simple way to substitute OH
phenol is an antiseptic and is used to make polymers
potassium iodide solution
warm
C6H5N2+ Cl¯ + KI ——>
C6H5I
+ KCl +
N2
N2
DIAZONIUM SALTS - COUPLING
reagents
conditions
equation
phenol and sodium hydroxide
alkaline solution below 10°C
(4-hydroxyphenol)azobenzene
YELLOW
use
making dyes