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Chapter 7. Alkene Synthesis & Reactions. sp 2 sp 3. p 172, Table 5.3. Diss. energy of double bond (H 2 C=CH 2 ): 611 kJ/mol. Diss. energy of sigma bond (CH 3 — CH 3 ): 376 kJ/mol. Dissociation energy of pi bond: 235 kJ/mol. Therefore, pi bond is more reactive than sigma bond. allylic
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Chapter 7 Alkene Synthesis & Reactions Chapter 7
sp2 sp3 p 172, Table 5.3 Diss. energy of double bond (H2C=CH2): 611 kJ/mol Diss. energy of sigma bond (CH3 — CH3): 376 kJ/mol Dissociation energy of pi bond: 235 kJ/mol Therefore, pi bond is more reactive than sigma bond. Chapter 7
allylic 361 kJ/mol Vinylic C—H 444 kJ/mol alkyl 401 kJ/mol General Properties No rotation about the pi bond. Relatively nonpolar. Not soluble in water, but soluble in hexane, ether, etc. p 172, Table 5.3 1. Radical reactions take place at the allylic position. 2. Allylic hydrogen is more acidic than alkyl and vinylic hydrogen. Chapter 7
Alkene Synthesis Chapter 7
Synthesis From halides - dehydrohalogenation (minus HX): Elimination From alcohol - dehydration (minus H2O): Chapter 7
Elimination Reaction Chapter 7
Answer Key Chapter 7
Alkene Reactions Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
Alkene + HX X: Cl, Br, or I. Carbocation intermediate - is planar, incoming group can attack from above or below the plane. Markovnikov rule - regiochemistry. Review Chapter 6. Chapter 7
? 2-Chloro-3-methylheptane Alkene + HX Electrophilic Addition. Chapter 7
Answer Key Chapter 7
Alkene + HX - suppliment Secondary halide - carbocation. Primary halide - free radical. Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
Alkene + X2 X: Cl or Br. F is too reactive, I does not react. Chloronium or bromonium ion intermediate. Anti stereochemistry. Chapter 7
Alkene + X2 Chapter 7
Answer Key trans-1,2,Dichloro-1,2-dimethylcyclohexane 1,2,Dibromopropane Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
DMSO - solvent, NBS - source of Br2. Halohydrin Alkene halohydrin. Form bromonium ion intermediate. Then attack by nucleophile. Aromatic ring is inert. Anti stereochemistry. Markovnikov rule applies. Chapter 7
Halohydrin Chapter 7
Answer Key 1-bromo-2-propanol trans-2-bromocyclopentanol or cyclopentene bromohydrin (E)-2-Chloro-1-methly-1-cyclopentanol Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
Oxymercuration Alkene alcohol. Intermediate is mercurinium ion (similar to bromonium ion). Anti stereochemistry. Markovnikov rule applies. Chapter 7
Oxymercuration Chapter 7
Answer Key Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
Hydroboration Alkene alcohol. Intermediate is organoborane. Syn stereochemistry. Non - Markovnikov rule applies. Chapter 7
Hydroboration Mechanism Chapter 7
Hydroboration Chapter 7
Answer Key Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
Hydrogenation • Reduction - formation of C—H bond. • PtO2 solid catalyst - heterogeneous reaction. • syn chemistry. • “Alkenes are much more reactive than most other functional groups toward catalytic hydrogenation.” - p251 Chapter 7
Hydrogenation Chapter 7
Answer Key Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
Hydroxylation • Forming 1,2-dialcohol or diol (glycol). • Forming cyclic osmate intermediate therefore syn stereochemistry. Chapter 7
Hydroxylation Chapter 7
Answer Key Chapter 7
Breaking up 1,2-diol Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
Alkene + Carbene Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
Simmons-Smith Reaction Chapter 7
Alkene + Carbene p 248 “…stereospecific … Starting from a cis alkene … only cis disubstituted cyclopropane is produced; starting from a trans alkene, only trans-disubstituted cyclopropane is produced.” Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7
Oxidation • Reducing the length of the carbon skeleton. • Alkene aldehyde and/or ketone. • Oxidizing agents are ozone or potassium permanganate. Chapter 7
Alkene + Ozone Chapter 7
Answer Key Chapter 7
HX ether X2 CH2Cl2 KMnO4, H3O+ X2 O3 H2O(xs) Zn/H3O+ HgAc2, H2O/THF CH2I2 NaBH4 Zn(Cu) ether BH3, THF CHCl3 H2O2, OH- KOH H2 OsO4 NaHSO4, H2O Pd or Pt M halogenation anti halohydrination oxidation M anti oxymercuration M oxidation Alkene hydroboration non-M syn Simmons-Smith syn hydrogenation syn carbenation syn syn hydroxylation Chapter 7