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sn1 sn2 e1 e2 cheat sheet, Cheat Sheet of Organic Chemistry

Adelphi UniversityOrganic Chemistry

Great and complete cheat sheet about sn1 sn2 e1 e2

Typology: Cheat Sheet

2018/2019

Uploaded on 07/31/2019

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Substitution and Elimination Reactions Comparative Chart
Reaction Structure of RX Reactivity of Nu: Conc. Of Nu: Solvent Stereochemistry
SN2 1>2>3
Only this reaction and
E2 will most likely
react with a primary
RX
Strong nucleophile
favors reaction
High concentration of
nucleophile favors
reaction
Aprotic polar solvent favors
a SN2 reaction if either of
the reactants is charged
ex: DMF DMSO Acetone
inversion of configuration
E2 3>2>1
Major product is more
substituted alkene
unless
*the base is large
*the alkyl halide is an
alkyl flouride
*the alkyl halide
contains one or more
double bonds
Strong Base favors
reaction
High concentration of
base favors reaction
Aprotic polar solvent favors
a E2 reaction if either of
the reactants is charged
ex: DMF DMSO Acetone
If the reactant has 2 H bonded
to the carbon from which a H is
to be removed, both E and Z
result.
The conformers that has the
bulkiest groups on opposite
sides will be the major product.
Anti and syn elimination– if it
is cyclohexane, it has to be
axial (anti)
SN1 3>2>1
Forms a carbocation
Not effected by strength
of nucleophile but a
weak nucleophile favors
it by not favoring a
SN2 reaction
Not effected but low
concentration disfavors a
SN2 reaction
Protic polar favors a SN1
reaction if the reactant is not
charged.
Ex: H2O, CH3OH, etc.
Racemization (with some
inversion because of ion
pairing)
E1 3>2>1
Forms a carbocation
Weak base favors E1
reaction by disfavoring
E2 reaction
Not effected but a low
concentration of base
favors E1 by disfavoring a
E2 reaction
Protic polar favors a E1
reaction if the reactant is not
charged.
Ex: H2O, CH3OH, etc.
Bulkiest groups on opposite
sides
SN Versus E
Methyl halide Primary halide Secondary halide Tertiary halide
SN2 reaction most
favored
No Elimination
reactions!
SN2 when the main
reaction is with good
nucleophiles/weak
bases such as I- and
CH3CO2-
E2 if you use strong
bulky bases such as
t-butoxide steric effects
SN2 if the main reaction is with weak base or Nu: where Pka of
conjugate acid is 11 or less ex: I- or Ch3CO2-
E2 if the main reaction is with a strong base or Nu: where Pka of
conjugate acid is 11 or greater- , high temperatures and bulky
bases increas elimination
SN1/E1 are common in reactions with weak Nu: in polar protic solvents
like water, high temps favor E1
E2 if Main reaction is with strong bases
like OH- and RO-
SN1/E1 if main reaction is with a poor
Nu: High temperatures favor E1 out of the
two.

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Substitution and Elimination Reactions Comparative Chart

Reaction

Structure of RX

Reactivity of Nu:

Conc. Of Nu:

Solvent

Stereochemistry

SN

RXreact with a primaryE2 will most likelyOnly this reaction and1>2> favors reactionStrong nucleophile reactionnucleophile favorsHigh concentration of a SN2 reaction ifAprotic polar solvent favors (^) eithe r of

ex: DMF DMSO Acetonethe reactants is charged inversion of configuration

E

double bondscontains one or morethe alkyl halidealkyl flouridethe alkyl halide is an*the base is largeunlesssubstituted alkeneMajor product is more3>2> reactionStrong Base favors base favors reactionHigh concentration of a E2 reaction ifAprotic polar solvent favors (^) eithe r of

ex: DMF DMSO Acetonethe reactants is charged axial (anti)is cyclohexane, it has to beAnti and syn elimination– if itsides will be the major product.bulkiest groups on oppositeThe conformers that has theresult.to be removed, both E and Zto the carbon from which a H isIf the reactant has 2 H bonded

SN

Forms a carbocation3>2> SN2 reactionit by not favoring aweak nucleophile favorsof nucleophile but aNot effected by strength SN2 reactionconcentration disfavors aNot effected but low Ex: H2O, CH3OH, etc.charged.reaction if the reactant is notProtic polar favors a SN pairing)inversion because of ionRacemization (with some

E

Forms a carbocation3>2> E2 reactionreaction by disfavoringWeak base favors E E2 reactionfavors E1 by disfavoring aconcentration of baseNot effected but a low Ex: H2O, CH3OH, etc.charged.reaction if the reactant is notProtic polar favors a E sidesBulkiest groups on opposite

SN Versus E

Methyl halide

Primary halide

Secondary halide

Tertiary halide

reactions!No EliminationfavoredSN2 reaction most t-butoxide steric effectsbulky bases such asE2 if you use strongCH3CO2-bases such as I- andnucleophiles/weakreaction is with goodSN2 when the main conjugate acid is 11 or less SN2 if the main reaction is with weak base or Nu: where Pka of (^) ex: I- or Ch3CO2-

conjugate acid is 11 or greater E2 if the main reaction is with a strong base or Nu: where Pka of

  • , high temperatures and bulky

like water, high temps favor E1SN1/E1 are common in reactions with weak Nu: in polar protic solventsbases increas elimination

two.Nu: High temperatures favor E1 out of theSN1/E1 if main reaction is with a poorlike OH- and RO-E2 if Main reaction is with strong bases