12.9 rate and regioselectivity in electrophilic aromatic substitution
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12.9 Rate and Regioselectivity in Electrophilic Aromatic Substitution. A substituent already present on the ring can affect both the rate and regioselectivity of electrophilic aromatic substitution. Effect on Rate. - PowerPoint PPT PresentationTRANSCRIPT
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12.912.9Rate and Regioselectivity in Rate and Regioselectivity in
Electrophilic Aromatic SubstitutionElectrophilic Aromatic Substitution
A substituent already present on the ring A substituent already present on the ring can affect both the can affect both the raterate and and regioselectivityregioselectivityof electrophilic aromatic substitution.of electrophilic aromatic substitution.
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ActivatingActivating substituents increase the rate substituents increase the rate of EAS compared to that of benzene.of EAS compared to that of benzene.
DeactivatingDeactivating substituents decrease substituents decrease the rate of EAS compared to benzene. the rate of EAS compared to benzene.
Effect on RateEffect on Rate
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Toluene undergoes nitration Toluene undergoes nitration 20-25 times faster than 20-25 times faster than benzene.benzene.
A methyl group is an A methyl group is an activatingactivating substituent. substituent.
Methyl GroupMethyl Group
CHCH33
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(Trifluoromethyl)benzene (Trifluoromethyl)benzene undergoes nitration 40,000 undergoes nitration 40,000 times more slowly than benzene .times more slowly than benzene .
A trifluoromethyl group is aA trifluoromethyl group is adeactivatingdeactivating substituent. substituent.
Trifluoromethyl GroupTrifluoromethyl Group
CFCF33
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Ortho-para directors Ortho-para directors direct an incoming direct an incoming electrophile to positions ortho and/or electrophile to positions ortho and/or para to themselves.para to themselves.
Meta directors Meta directors direct an incoming direct an incoming electrophile to positions meta to electrophile to positions meta to themselves.themselves.
Effect on RegioselectivityEffect on Regioselectivity
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Nitration of TolueneNitration of Toluene
CHCH33
HNOHNO33
aceticaceticanhydrideanhydride
CHCH33
NONO22
CHCH33
NONO22
CHCH33
NONO22
++ ++
34%34%3%3%63%63%
oo- and - and pp-nitrotoluene together comprise 97% -nitrotoluene together comprise 97% of the productof the product
a methyl group is an ortho-para directora methyl group is an ortho-para director
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Nitration of (Trifluoromethyl)benzeneNitration of (Trifluoromethyl)benzene
CFCF33 CFCF33
NONO22
CFCF33
NONO22
CFCF33
NONO22
++ ++
3%3%91%91%6%6%
mm-nitro(trifluoromethyl)benzene comprises -nitro(trifluoromethyl)benzene comprises 91% of the product91% of the product
a trifluoromethyl group is a meta directora trifluoromethyl group is a meta director
HNOHNO33
HH22SOSO44
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12.1012.10Rate and RegioselectivityRate and Regioselectivity
in thein theNitration of TolueneNitration of Toluene
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Carbocation Stability Controls RegioselectivityCarbocation Stability Controls Regioselectivity
++
HH
HH
HH
CHCH33
HH
HH
NONO22
++
HH
HH
HH
HH
HH
NONO22
CHCH33
++HH
HH
HH
HH
HH
NONO22
CHCH33
gives orthogives ortho gives paragives para gives metagives meta
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Carbocation Stability Controls RegioselectivityCarbocation Stability Controls Regioselectivity
++
HH
HH
HH
CHCH33
HH
HH
NONO22
++
HH
HH
HH
HH
HH
NONO22
CHCH33
++HH
HH
HH
HH
HH
NONO22
CHCH33
gives orthogives ortho gives paragives para gives metagives meta
more stablemore stable less stableless stable
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ortho Nitration of Tolueneortho Nitration of Toluene
++
HH
HH
HH
CHCH33
HH
HH
NONO22
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ortho Nitration of Tolueneortho Nitration of Toluene
++
HH
HH
HH
CHCH33
HH
HH
NONO22
HH
HH
HH
CHCH33
HH
HH
NONO22
++
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ortho Nitration of Tolueneortho Nitration of Toluene
++
HH
HH
HH
CHCH33
HH
HH
NONO22
HH
HH
HH
CHCH33
HH
HH
NONO22
HH
HH
HH
CHCH33
HH
HH
NONO22
++
++
this resonance this resonance form is a form is a tertiary tertiary
carbocationcarbocation
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ortho Nitration of Tolueneortho Nitration of Toluene
++
HH
HH
HH
CHCH33
HH
HH
NONO22
the rate-determining intermediate in the orthothe rate-determining intermediate in the orthonitration of toluene has tertiary carbocation nitration of toluene has tertiary carbocation charactercharacter
HH
HH
HH
CHCH33
HH
HH
NONO22
HH
HH
HH
CHCH33
HH
HH
NONO22
++
++
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para Nitration of Toluenepara Nitration of Toluene
++
HH
HH
HH
HH
HH
NONO22
CHCH33
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para Nitration of Toluenepara Nitration of Toluene
++
HH
HH
HH
HH
HH
NONO22
CHCH33
HH
HH
HH
HH
HH
NONO22
CHCH33
++
this resonance this resonance form is a tertiary form is a tertiary
carbocationcarbocation
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para Nitration of Toluenepara Nitration of Toluene
++
HH
HH
HH
HH
HH
NONO22
CHCH33
HH
HH
HH
HH
HH
NONO22
CHCH33
HH
HH
HH
HH
HH
NONO22
CHCH33
++
++
this resonance this resonance form is a tertiary form is a tertiary
carbocationcarbocation
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para Nitration of Toluenepara Nitration of Toluene
++
HH
HH
HH
HH
HH
NONO22
CHCH33
HH
HH
HH
HH
HH
NONO22
CHCH33
HH
HH
HH
HH
HH
NONO22
CHCH33
++
++
the rate-determining intermediate in the parathe rate-determining intermediate in the paranitration of toluene has tertiary carbocation nitration of toluene has tertiary carbocation charactercharacter
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meta Nitration of Toluenemeta Nitration of Toluene
++HH
HH
HH
HH
HH
NONO22
CHCH33
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meta Nitration of Toluenemeta Nitration of Toluene
++HH
HH
HH
HH
HH
NONO22
CHCH33
HH
HH
HH
HH
HH
NONO22
CHCH33
++
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meta Nitration of Toluenemeta Nitration of Toluene
++HH
HH
HH
HH
HH
NONO22
CHCH33
HH
HH
HH
HH
HH
NONO22
CHCH33
HH
HH
HH
HH
HH
NONO22
CHCH33
++
++
all the resonance forms of the rate-all the resonance forms of the rate-determining intermediate in the meta nitration determining intermediate in the meta nitration of toluene have their positive charge on a of toluene have their positive charge on a secondary carbonsecondary carbon
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Nitration of Toluene: InterpretationNitration of Toluene: Interpretation
• The rate-determining intermediates for ortho and para The rate-determining intermediates for ortho and para nitration each have a resonance form that is a tertiary nitration each have a resonance form that is a tertiary carbocation. All of the resonance forms for the rate-carbocation. All of the resonance forms for the rate-determining intermediate in meta nitration are determining intermediate in meta nitration are secondary carbocations.secondary carbocations.
• Tertiary carbocations, being more stable, are formed Tertiary carbocations, being more stable, are formed faster than secondary ones. Therefore, the faster than secondary ones. Therefore, the intermediates for attack at the ortho and para intermediates for attack at the ortho and para positions are formed faster than the intermediate for positions are formed faster than the intermediate for attack at the meta position. This explains why the attack at the meta position. This explains why the major products are major products are o- o- and and pp-nitrotoluene.-nitrotoluene.
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Nitration of Toluene: Partial Rate FactorsNitration of Toluene: Partial Rate Factors
• The experimentally determined reaction rate can be The experimentally determined reaction rate can be combined with the ortho/meta/para distribution to give combined with the ortho/meta/para distribution to give partial rate factors partial rate factors for substitution at the various ring for substitution at the various ring positions.positions.
• Expressed as a numerical value, a partial rate factor Expressed as a numerical value, a partial rate factor tells you by how much the rate of substitution at a tells you by how much the rate of substitution at a particular position is faster (or slower) than at a single particular position is faster (or slower) than at a single position of benzene.position of benzene.
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Nitration of Toluene: Partial Rate FactorsNitration of Toluene: Partial Rate Factors
CHCH33
4242
2.52.5
5858
4242
2.52.5
11
11
11
11
11
11
All of the available ring positions in toluene are more All of the available ring positions in toluene are more reactive than a single position of benzene.reactive than a single position of benzene.
A methyl group activates all of the ring positions but A methyl group activates all of the ring positions but the effect is greatest at the ortho and para positons.the effect is greatest at the ortho and para positons.
Steric hindrance by the methyl group makes each Steric hindrance by the methyl group makes each ortho position slightly less reactive than para.ortho position slightly less reactive than para.
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Nitration of Toluene vs. tert-ButylbenzeneNitration of Toluene vs. tert-Butylbenzene
CHCH33
4242
2.52.5
5858
4242
2.52.5
terttert-Butyl is activating and ortho-para directing-Butyl is activating and ortho-para directing
terttert-Butyl crowds the ortho positions and decreases -Butyl crowds the ortho positions and decreases the rate of attack at those positions.the rate of attack at those positions.
CHCH33
7575
33
4.54.5
33
4.54.5
CC CHCH33HH33CC
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all alkyl groups are activating and all alkyl groups are activating and ortho-para directingortho-para directing
GeneralizationGeneralization
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12.1112.11Rate and RegioselectivityRate and Regioselectivity
in thein theNitration of (Trifluoromethyl)benzeneNitration of (Trifluoromethyl)benzene
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A Key PointA Key Point
CC ++HH33CC CC ++FF33CC
A methyl group is electron-donating and A methyl group is electron-donating and stabilizes a carbocation.stabilizes a carbocation.
Because F is so electronegative, a CFBecause F is so electronegative, a CF33 group group
destabilizes a carbocation.destabilizes a carbocation.
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Carbocation Stability Controls RegioselectivityCarbocation Stability Controls Regioselectivity
++
HH
HH
HH
CFCF33
HH
HH
NONO22
++
HH
HH
HH
HH
HH
NONO22
CFCF33
++HH
HH
HH
HH
HH
NONO22
CFCF33
gives orthogives ortho gives paragives para gives metagives meta
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Carbocation Stability Controls RegioselectivityCarbocation Stability Controls Regioselectivity
++
HH
HH
HH
CFCF33
HH
HH
NONO22
++
HH
HH
HH
HH
HH
NONO22
CFCF33
++HH
HH
HH
HH
HH
NONO22
CFCF33
gives orthogives ortho gives paragives para gives metagives meta
less stableless stable more stablemore stable
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ortho Nitration of (Trifluoromethyl)benzeneortho Nitration of (Trifluoromethyl)benzene
++
HH
HH
HH
CFCF33
HH
HH
NONO22
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++
HH
HH
HH
CFCF33
HH
HH
NONO22
HH
HH
HH
CFCF33
HH
HH
NONO22
++
ortho Nitration of (Trifluoromethyl)benzeneortho Nitration of (Trifluoromethyl)benzene
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++
HH
HH
HH
CFCF33
HH
HH
NONO22
HH
HH
HH
CFCF33
HH
HH
NONO22
HH
HH
HH
CFCF33
HH
HH
NONO22
++
++
this resonance this resonance form is form is
destabilizeddestabilized
ortho Nitration of (Trifluoromethyl)benzeneortho Nitration of (Trifluoromethyl)benzene
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++
HH
HH
HH
CFCF33
HH
HH
NONO22
one of the resonance forms of the rate-one of the resonance forms of the rate-determining intermediate in the orthodetermining intermediate in the orthonitration of (trifluoromethyl)benzene is strongly nitration of (trifluoromethyl)benzene is strongly destabilizeddestabilized
HH
HH
HH
CFCF33
HH
HH
NONO22
HH
HH
HH
CFCF33
HH
HH
NONO22
++
++
ortho Nitration of (Trifluoromethyl)benzeneortho Nitration of (Trifluoromethyl)benzene
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++
HH
HH
HH
HH
HH
NONO22
CFCF33
para Nitration of (Trifluoromethyl)benzenepara Nitration of (Trifluoromethyl)benzene
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++
HH
HH
HH
HH
HH
NONO22
CFCF33
HH
HH
HH
HH
HH
NONO22
CFCF33
++
this resonance this resonance form is destabilizedform is destabilized
para Nitration of (Trifluoromethyl)benzenepara Nitration of (Trifluoromethyl)benzene
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++
HH
HH
HH
HH
HH
NONO22
CFCF33
HH
HH
HH
HH
HH
NONO22
CFCF33
HH
HH
HH
HH
HH
NONO22
CFCF33
++
++
this resonance this resonance form is destabilizedform is destabilized
para Nitration of (Trifluoromethyl)benzenepara Nitration of (Trifluoromethyl)benzene
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++
HH
HH
HH
HH
HH
NONO22
CFCF33
HH
HH
HH
HH
HH
NONO22
CFCF33
HH
HH
HH
HH
HH
NONO22
CFCF33
++
++
one of the resonance forms of the rate-one of the resonance forms of the rate-determining intermediate in the paradetermining intermediate in the paranitration of (trifluoromethyl)benzene is nitration of (trifluoromethyl)benzene is strongly destabilizedstrongly destabilized
para Nitration of (Trifluoromethyl)benzenepara Nitration of (Trifluoromethyl)benzene
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++HH
HH
HH
HH
HH
NONO22
CFCF33
meta Nitration of (Trifluoromethyl)benzenemeta Nitration of (Trifluoromethyl)benzene
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++HH
HH
HH
HH
HH
NONO22
CFCF33
HH
HH
HH
HH
HH
NONO22
CFCF33
++
meta Nitration of (Trifluoromethyl)benzenemeta Nitration of (Trifluoromethyl)benzene
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++HH
HH
HH
HH
HH
NONO22
CFCF33
HH
HH
HH
HH
HH
NONO22
CFCF33
HH
HH
HH
HH
HH
NONO22
CFCF33
++
++
none of the resonance forms of the rate-determining none of the resonance forms of the rate-determining intermediate in the meta nitration of intermediate in the meta nitration of (trifluoromethyl)benzene have their positive charge (trifluoromethyl)benzene have their positive charge on the carbon that bears the CFon the carbon that bears the CF33 group group
meta Nitration of (Trifluoromethyl)benzenemeta Nitration of (Trifluoromethyl)benzene
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Nitration of (Trifluoromethyl)benzene: InterpretationNitration of (Trifluoromethyl)benzene: Interpretation
The rate-determining intermediates for ortho and para The rate-determining intermediates for ortho and para nitration each have a resonance form in which the nitration each have a resonance form in which the positive charge is on a carbon that bears a CFpositive charge is on a carbon that bears a CF33 group. group.
Such a resonance structure is strongly destabilized. Such a resonance structure is strongly destabilized. The intermediate in meta nitration avoids such a The intermediate in meta nitration avoids such a structure. It is the least unstable of three unstable structure. It is the least unstable of three unstable intermediates and is the one from which most of the intermediates and is the one from which most of the product is formed.product is formed.
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Nitration of (Trifluoromethyl)benzene:Nitration of (Trifluoromethyl)benzene:Partial Rate FactorsPartial Rate Factors
All of the available ring positions in All of the available ring positions in (trifluoromethyl)benzene are much less reactive than (trifluoromethyl)benzene are much less reactive than a single position of benzene.a single position of benzene.
A CFA CF33 group deactivates all of the ring positions but group deactivates all of the ring positions but
the degree of deactivation is greatest at the ortho and the degree of deactivation is greatest at the ortho and para positons.para positons.
CFCF33
4.5 x 104.5 x 10-6-64.5 x 104.5 x 10-6-6
67 x 1067 x 10-6-6 67 x 1067 x 10-6-6
4.5 x 104.5 x 10-6-6