哈佛大学：《高等有机化学》课程教材讲义（英文版）Lecture 33 Introduction to Organosilicon Chemistry

D. A. Evans Carbonyl[1, 2]&[1, 3] Sigmatropic Rearrangements Chem 206 [1, 3-Sigmatropic Rearrangements The Brook Rearrangement(s) Rsi Rsi A G. Brook Accts. Chem. Research 1974.. 77-84 R Y=C; X=O Ea=8-11 kcal/mol Complete retention of Si OSiR3 Ea= 28 kcal/mol Ph A G. Brook Accts. Chem. Research 1974. 7.77-84 OEt Brook speculates that a hypervalent Si intermediate. Brook has documented that retention at Silicon inversion at Carbon occur might be involved in the rearrangemer Transformations Involving the Brook Rearrangement Y=C: X= C Moser, W.H. The Brook Rearrangement in Tandem Bond Formation Strategies, Tetrahedron 2001, 57, 2065-2084 CH Inversion of si Acylsilanes stereochemistry was noted O R2BH HC H Ea 48 kcal/mol H.Kwartetal,JACS1973.95,8678 Theoretical calculations lead to the conclusion that the concerted [1, 3] E+) sigmatropic rearrangement with retention of Si-configuration should represent the lower energy pathway Yamabe, JACS 1997. 119. 808 12SR3s、 At the present time these rearrangements are not well studied

D. A. Evans Carbonyl [1,2] & [1,3] Sigmatropic Rearrangements Chem 206 "The Brook Rearrangement(s)" [1,3]-Sigmatropic Rearrangements Y C X R3Si R Y C X R R3Si Np Si Ph Me O Ph Y = C; X = O 110 °C Ph O Np Si Me Ph Np Si Ph O Me Ph Complete retention of Si stereochemistry was noted. Ea = 28 kcal/mol A. G. Brook Accts. Chem. Research 1974, 7, 77-84 Brook speculates that a hypervalent Si intermediate might be involved in the rearrangement. Y = C; X = C Np Si CH2 Me Ph H 500 °C H2C H Ph Si Me Np Inversion of Si stereochemistry was noted. Ea = 48 kcal/mol H. Kwart et al., JACS 1973. 95, 8678 Theoretical calculations lead to the conclusion that the concerted [1,3] sigmatropic rearrangement with retention of Si-configuration should represent the lower energy pathway. Yamabe, JACS 1997, 119, 808 At the present time these rearrangements are not well studied, A. G. Brook Accts. Chem. Research 1974, 7, 77-84 C OH R3Si Ph Ph C O H Ph Ph SiR3 Et2NH DMSO Et2NH C O R3Si Ph Ph C O SiR3 Ph Ph Ea ~ 8-11 kcal/mol H N H Et Et H N H Et Et Brook has documented that retention at Silicon & inversion at Carbon occur. Transformations Involving the Brook Rearrangement Moser, W. H. "The Brook Rearrangement in Tandem Bond Formation Strategies," Tetrahedron 2001, 57, 2065-2084 R SiR3 O Acylsilanes Li R El(+) R R3Si O R R O R Li R3Si Li El(+) R O R R3Si El [1,2] Si SiR3 O Cl O Li SiR3 Cu(I) R R R2BH [Ox] R SiR3

D.A. Evans Transformations Involving the Brook Rearrangement Chem 206 Transformations Involving the Brook Rearrangement intramolecular alkylations may be carried out. Moser. W. H "The Brook ment in Tandem Bond formaton OTMS Rso日 [1, 2 Si RaSi R [12]Si Takeda JACS 1993, 115, 9351: Synlett 1994, 178: SynLett 1997, 255 These reagents are useful homoenolate anion equivalents CH2+) OSiMe3 Evans. d.a Andrews. g. c: Buckwalter. B. JACS 1974. 96 5560 Me? si a Si-Variant: still Mac Donald JAcs 1974. 96 5561 Brook Equilibrium Reich JACS 1980, 102, 1423(see footnote 8) 33] Me3Si SiMe OSiMe3 12]Si THF SiMe Tetrahedron 2001. 57. 2065-2084. footnote 16

D. A. Evans Chem 206 Transformations Involving the Brook Rearrangement Moser, W. H. "The Brook Rearrangement in Tandem Bond Formation Strategies," Tetrahedron 2001, 57, 2065-2084 R SiR3 O Li R El(+) R R3Si O R R O R Li R3Si Li El(+) R O R R3Si El [1,2] Si O R R3Si s-BuLi O R R3Si Li O R Li SiR3 O R R3Si El El(+) O R These reagents are useful homoenolate anion equivalents R CH2 (–) O "Metalated Allylic Ethers as Homoenolate Anion Equivalents". Evans, D. A.; Andrews, G. C.; Buckwalter, B. JACS 1974, 96, 5560. Si–Variant: Still & MacDonald JACS 1974, 96, 5561 Brook Equilibrium C OLi Me3Si Ph Ph C O Li Ph Ph SiMe3 THF C OLi Me3Si H Ph C O Li H THF Ph SiMe3 Reich JACS 1980, 102, 1423 (see footnote 8) Reich JACS 1980, 102, 1423 R SiR3 O Li (CH2 )4–I R C OTMS R H3O O + Intramolecular alkylations may be carried out: SiR3 O PhS R OLi OSiMe3 OH R PhS Takeda JACS 1993, 115, 9351; Synlett 1994, 178; SynLett 1997, 255 PhS O LiO SiR3 R [1,2] Si PhS O OSiMe3 R SiR3 O PhS OLi R OSiMe3 OLi R Me3Si PhS LiO SiR3 O R [1,2] Si PhS OSiMe3 O R PhS OSiMe3 OLi R [3,3] Tetrahedron 2001, 57, 2065-2084, footnote 16 Transformations Involving the Brook Rearrangement