ALKEne and alkyne Reactions
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Transcript of ALKEne and alkyne Reactions
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ALKENE AND ALKYNE REACTIONSDr. ClowerCHEM 2411Spring 2014
McMurry (8th ed.) sections 7.7-7.8, 7.10-7.11, 10.3-10.4, 8.2-8.8, 8.10, 8.12, 9.3-9.8, 7.1, 8.1, 9.2, 9.9
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Outline• Reactions of alkenes• Reactions of alkynes• Preparation of alkenes and alkynes• Synthesis
• No reactions of alkyl halides (originally on syllabus)
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Reaction Charts• Help organize reaction details• Organize charts by reaction
type, starting material, product• See webpage for template• Example:
Reaction TypeStarting Material Reagent Regiochemistry/
stereochemistryRearrangement
possible? Product
Oxymercuration-demercuration Alkene
1. Hg(OAc)2, H2O2. NaBH4
MarkovnikovAnti addition no Alcohol
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Reactions of AlkenesI. Allylic halogenationII. Electrophilic additionIII. ReductionIV. OxidationV. Polymerization
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I. Allylic Halogenation• Similar to radical halogenation of alkanes• Alkene react with molecular halogen in the presence of
heat or light• Alkyl halide is produced• Substitution of –X for –H at the allylic position
• Most stable radical intermediate• Stabilized by resonance
CH2 CH CH3Br2
h
Allylic carbon
CH2 CH CH2
Br
+ HBr
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Allylic Halogenation• Another set of reagents:
• N-bromosuccinimide (NBS), h• Bromination only (no chlorination)
• Product is a racemic mixture (if there is a stereocenter)
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Radical Stability
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• What is the major product of the reaction of 1-octene with NBS (in the presence of light)?
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• What is the major product of the reaction of 1-octene with NBS (in the presence of light)?
• Reaction occurs at less sterically hindered carbon and produces the more stable C=C
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• What is the major product of the following reaction?
CH2
NBS
h
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II. Electrophilic Addition• Most common reaction of alkenes• Examples:
• Break p bond of alkene• Form new s bonds to each C of double bond• Alkene is nucleophile; reacts with electrophile (HX, H2O, etc.)• Forms carbocation intermediate
C C + HX C C
H X
C C + H2O C C
H OH
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Electrophilic Addition• General mechanism:
• Step 1:
• Step 2:
• Which step is RDS?
C C + E C C
E
C C
E
+ Nu: C C
E Nu
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Addition of Hydrogen Halides• HCl, HBr, HI• Example: 2-methylpropene + HBr
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• What is the major product of the following reaction?
• Stereochemistry of product = racemic mixture• Carbocation intermediate is planar, sp2 hybridized
• Regiochemistry of reaction• Which C gets the H? Which C gets the X?• Reaction is regiospecific for one product
HBr
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Regiochemistry of Electrophilic Addn.• Markovnikov’s Rule:
• In the addition of HX (or H2O) to an alkene, the H will add to the carbon with the greater number of H’s already bonded to it
• The X (or OH) attaches to the carbon with fewer H’s (the more substituted carbon)
• Product = Markovnikov product• Opposite product = anti-Markovnikov or non-Markovnikov
• Formed under specific conditions
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Markovnikov’s Rule
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Markovnikov’s Rule• Why is the Markovnikov product favored?• Look at reaction intermediate
• Carbocation• Markovnikov addition forms the more stable R+
• 3º > 2º > 1º• More stable carbocation forms faster, will react to give
product
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Markovnikov’s Rule
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• Draw and name the major product of the following reaction.
HBrCH3 CH2 CH
CH3
CH CH2
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• Draw and name the major product of the following reaction.
• Expected product =
• Actual product =
• What happened?
HBrCH3 CH2 CH
CH3
CH CH2
CH3 CH2 CH
CH3
CH CH3
Br
2-bromo-3-methylpentane
CH3 CH2 C
CH3
CH2 CH3
Br
3-bromo-3-methylpentane
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Carbocation Rearrangement• Carbocation intermediates can rearrange to form a more
stable carbocation structure• Hydride shift = H:- moves from C adjacent to carbocation
CH3 CH2 C
CH3
CH CH3
H
CH3 CH2 C
CH3
CH2 CH3
CH3 CH2 C
CH3
CH2 CH3
Br
3-bromo-3-methylpentane
Br
CH3 CH2 CH
CH3
CH CH2
H Br
hydride shif t
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Carbocation Rearrangement• Alkyl groups can also shift
• Typically methyl or phenyl
(Major product)
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Anti-Markovnikov Addition of HBr• In the presence of peroxides
• H2O2 or R2O2
• Free radical mechanism• Only HBr, not HCl or HI
HBrCH3 C
CH3
CH CH3 CH3 C
CH3
CH2 CH3
Br
HBrCH3 C
CH3
CH CH3 CH3 CH
CH3
CH CH3peroxides
Br
(Markovnikov)
(anti-Markovnikov)
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Addition of Halogens
• X2 = Br2 or Cl2 (F2 too reactive, I2 unreactive)• Solvent = inert, nonaqueous• Stereochemistry = anti addition
• Two X atoms add from opposite sides of the C=C• Product = a vicinal dihalide
• Two X atoms on adjacent carbons
CH CH2R + X2r.t.
CH2Cl2(CHCl3, CCl4)
CH CH2R
X
X
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Mechanism
C C Br Br+
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Addition of Halogens
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• Draw the major product of the following reaction.
Br2
CCl4
CH3
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Addition of Halogens in the Presence of Water
• Stereochemistry: X and OH add anti• Regiochemistry: X adds to the less substituted carbon
OH adds to the more substituted carbon• Mechanism the same as addition of X2, except H2O is the
nucleophile in the second step
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Mechanism
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Mechanism• Water attacks the carbon with the largest d+
• Results in OH on more substituted carbon
C CH2RR
Br
C CH2RR
Br
not C CH2RR
Br
OHH
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• Draw the major product of the following reaction.
Br2
H2O
CH3
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Hydration• Addition of water• Three methods:
A. Acid-catalyzed hydrationB. Oxymercuration-demercurationC. Hydroboration-oxidation
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A. Acid-catalyzed hydration
• Regiochemistry = Markovnikov• Acid catalyst typically H2SO4 or H3PO4 (or just H3O+)• Carbocation intermediate, so rearrangement can occur
CH CH2R CH CH3R
OH
H2O
H+
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Mechanism
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• Draw the major product of the following reaction.
H2O
H2SO4
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B. Oxymercuration-demercuration• Step 1: Alkene reacts with mercuric acetate• Step 2: Reduction with sodium borohydride
• Regiochemistry =Markovnikov• Stereochemistry = anti addition of OH and H• No rearrangements• Milder conditions than H3O+
• Electrophile is +HgOAc• Formed by dissociation of AcO-Hg-Oac
• Intermediate is bridged mercurinium ion (similar to bromonium)
CH CH2R CH CH2R
OH
Hg(OAc)2
H2O
HgOAc
NaBH4CH CH2R
OH
H
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Oxymercuration-demercuration
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• Draw the major product for each of the following reactions.
1. Hg(OAc)2, H2O
2. NaBH4
CH3
1. Hg(OAc)2, H2O
2. NaBH4
CH3
CH3
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C. Hydroboration-oxidation
• Anti-Markovnikov product• Syn addition of H and OH (add on same side of C=C)• No rearrangements• THF stabilize highly reactive BH3
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Hydroboration-oxidation• Mechanism of first step:
• BH2 on the right because less steric hindrance• Leads to anti-Markovnikov product
• Second step: H2O2/NaOH replace –BH2 with –OH • Keep same stereochemistry (syn)
CH CH2R CH CH2R
BH2H BH2 H
CH CH2R
BH2H
H2O2
NaOHCH CH2R
OHH
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• Draw the major product of the following reaction.
1. BH3 THF
2. H2O2, NaOH
CH3
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• Draw the major product formed when the following alkene undergoes (a) acid-catalyzed hydration, (b) oxymercuration-demercuration, and (c) hydroboration-oxidation.
CH3 CH CH CH2
CH3
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Oxidation and Reduction• What is oxidation?• What is reduction?
• Classify these reactions as oxidation or reduction:
• CH3─CH═CH2 → CH3─CH2─CH3
• CH3─CH2─OH → CH3─CO2H
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III. Reduction• Catalytic hydrogenation• Seen before with heat of hydrogenation (alkene stability)
• Catalyst = metal, usually Pd, Pt, or Ni• Reaction takes place on metal surface• Stereochemistry = syn (both H’s add to same side of C=C)
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Mechanism
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Catalytic Hydrogenation
• This reduction does not work with C=O, C=N, or benzene except at very high P or T, or with a special catalyst
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IV. Oxidation• Three types
A. EpoxidationB. Hydroxylation C. Oxidative cleavage
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A. Epoxidation• Formation of epoxide
• Cyclic ether• Example:
• Reagent is peroxy acid (RCO3H)• Stereochemistry = syn
• Another method: treat halohydrin with base:
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B. Hydroxylation• Formation of a 1,2-diol/glycol/vicinal diol• Methods:
1. Opening of epoxide using aqueous acid• Product is trans diol
• Mechanism:
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Hydroxylation2. Addition of osmium tetroxide (OsO4) or potassium
permanganate (KMnO4)• How do you know these are both oxidizing agents?• Reaction includes some appropriate work-up
• H2O2 or NaHSO3, H2O for OsO4
• HO- (aq) for KMnO4
• Stereochemistry = syn
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• Draw the major product of the following reaction.
1. KMnO4
2. HO-, H2O
C
C
H CH2CH3
CH2CH3H
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C. Oxidative Cleavage• Oxidize and alkene and split the C=C• Results in formation of 2 carbonyls
• Type of carbonyls depends on alkene structure and the oxidizing agent used
• Three types of oxidizing agents1. Ozone2. Potassium permanganate3. Periodic acid
Y
ZX
W
O
X
W
O
Y
Z
+
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Oxidative Cleavage1. Ozone
• Ozonolysis• Reagents: 1. O3
2. (CH3)2S or Zn, H3O+
• Products = 2 carbonyls (ketones or aldehydes)• Terminal alkenes give CO2
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Oxidative Cleavage2. KMnO4
• Reagents: KMnO4 (excess or concentrated) and heat or acid• Use heat and excess KMnO4 to split intermediate glycol
• Products = 2 carbonyls (ketones or carboxylic acids)• Aldehydes oxidize to carboxylic acids in KMnO4
• Terminal alkenes still give CO2
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Oxidative Cleavage2. HIO4
• Specifically used to split glycol
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• Draw the major product for each of the following reactions.
KMnO4 (conc)
1. O3
2. (CH3)2S
CH3
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V. Polymerization• Polymer = large molecule synthesized by covalently
linking single parts (monomers)• Biological polymers: proteins, cellulose, nucleic acids• Organic polymers: plastics• Chain-growth polymers: made from alkene monomers
• Radical reaction
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Chain-growth Polymerization• Initiation by peroxides:
• Propagation:
• Termination:
R─CH2CH2• + •CH2CH2─R → R─CH2CH2CH2CH2─R
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Chain-growth Polymers
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• Draw the structure of poly(vinyl chloride).