10537338
Beschreibung
Mindmap von Chloe Drewery, aktualisiert more than 1 year ago
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Erstellt von Chloe Drewery
vor etwa 7 Jahre
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Aromatic Compounds -
Mindmap
- August Kekule
- For
- Benzene can be hydrogenated with 3
hydrogens to form cyclohexene. This would
suggest there are 3 double bonds.
- Benzene can be hydrogenated with 3
hydrogens to form cyclohexene. This would
suggest there are 3 double bonds.
- Against
- Enthalpy of hydrogenation would be
expected to be -320 kJ/mol. However
benzene has an enthalpy of
hydrogenation of -208 kJ/mol. This
means benzene is more stable than the
Kekule Model.
- Kekule suggested that benzene
has alternating double and single
bonds meaning the bonds have
different lengths. However all the
bonds in benzene have been
found to have a length of 0.139
nm; this length is between a single
and double bond.
- Benzene doesn't
decolourise bromine
water. Since Kekule's
structure included double
bonds you would expect
this.
- Doesn't undergo
electrophilic addition.
- Enthalpy of hydrogenation would be
expected to be -320 kJ/mol. However
benzene has an enthalpy of
hydrogenation of -208 kJ/mol. This
means benzene is more stable than the
Kekule Model.
- For
- Delocalised Pi System
- This is the proposed structure of benzene. It is a cloud in the
middle of a benzene molecule. It forms due to the sideways
overlap of the pi bonds. This creates a region of high electron
density due to there being delocalised electrons inside. This is
split into two regions, one above and below the carbon ring.
- This is the proposed structure of benzene. It is a cloud in the
middle of a benzene molecule. It forms due to the sideways
overlap of the pi bonds. This creates a region of high electron
density due to there being delocalised electrons inside. This is
split into two regions, one above and below the carbon ring.
- Nitration
- Requires: Concentrated sulphuric
acid, nitric acid and a temperature of
50 degrees celsius.
- Electrophilic substitution.
- HNO3 is not the electrophile. This is
created from the reaction between
concentrated sulphuric acid and
nitric acid. A nitronium ion is
created which is the electrophile.
- Halogenation follows the same process as the
halogen isn't the electrophile. Instead a halogen
carrier is required, such as AlCl3 which can be formed
just by mixing aluminium with chlorine. This
produces a Cl+ ion which can react with benzene.
- Requires: Concentrated sulphuric
acid, nitric acid and a temperature of
50 degrees celsius.
- Acylation
- This is the addition of a -RCOCl
group. This too requires a
halogen carrier.
- Adding acyl chloride
forms an aromatic
ketone.
- Called Friedl-crafts acylation
- This is the addition of a -RCOCl
group. This too requires a
halogen carrier.
- Alkylation
- Substitution of a hydrogen atom with an alkyl
group. This alkyl group must have a halogen
attached to it (haloalkane) and a halogen
carrier such as AlCl3 is required to generate the
electrophile.
- Called Friedl-crafts alkylation.
- Substitution of a hydrogen atom with an alkyl
group. This alkyl group must have a halogen
attached to it (haloalkane) and a halogen
carrier such as AlCl3 is required to generate the
electrophile.
- Electrophilic Substitution
- Two steps: addition and substitution.
- Addition: An electrophile is
attracted to the electron cloud. The
curly arrow points to the
electrophile from the circle. This
forms a coordinate bond. An
unstable intermediate is formed.
- Substitution: The c-h bond breaks. Its pair of
electrons restore the stable delocalised
structure. A hydrogen ion is eliminated. The
curly arrow points from the C-H bond to the
electron cloud.
- Two steps: addition and substitution.
- Activating
- The activating group forces
the additional groups to the
second and fourth carbons.
- An activator donates electrons to the Pi system.
- NH2 and OH
- The activating group forces
the additional groups to the
second and fourth carbons.
- Deactivating
- The deactivating group forces
the additional groups to the
third and fifth carbons.
- A deactivator accepts electrons.
- NO2
- The deactivating group forces
the additional groups to the
third and fifth carbons.
Medienanhänge
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