Pd‐catalyzed asymmetric intramolecular arylative dearomatization...Scheme 7.19 Iridium‐catalyzed intramolecular asymmetric allylic dearomatizat...Scheme 7.20 Enantioselective organocatalyzed formal [3+3] spiroannulation re...Scheme 7.21 NHC‐catalyzed enantioselective synthesis of spiropiperidinones r...Scheme 7.22 Asymmetric dearomative formal [4+2] cycloadditions published by ...Scheme 7.23 Enantioselective ene‐type spirocyclization developed by Mikami....Scheme 7.24 Enantioselective 1,6‐conjugate addition/annulation of para‐quino...Scheme 7.25 Enantioselective synthesis of spirodihydrofuranes developed by S...Scheme 7.26 The enantioselective synthesis of spirolactones reported by Gade...Scheme 7.27 Asymmetric copper‐catalyzed preparation of spirotetrahydropyrane...Scheme 7.28 Enantioselective dearomatization of phenols using chiral hyperva...Scheme 7.29 Chiral hypervalent organoiodine‐catalyzed enantioselective oxida...Scheme 7.30 Enantioselective oxidative dearomatization of arenols using chir...Scheme 7.31 Asymmetric synthesis of spiro‐2(
3H)‐furanones
via phase‐transfer...Scheme 7.32 Enantioselective construction of spirocyclic benzofuranone cyclo...Scheme 7.33 Asymmetric tandem synthesis of spirocyclic (2H)‐dihydrobenzofura...Scheme 7.34 The enantioselective synthesis of spirobenzofuranones reported b...Scheme 7.35 The catalytic asymmetric one‐pot [3+2] cyclization/semipinacol r...Scheme 7.36 Reaction mechanism.Scheme 7.37 Organocatalytic synthesis of spirobenzofuranones via cascade Mic...Scheme 7.38 Two approaches to chiral spirocyclic benzofuranones by using ami...Scheme 7.39 The enantioselective approaches leading to spirocyclic compounds...Scheme 7.40 Organocatalytic asymmetric double Michael addition and Michael/a...Scheme 7.41 Asymmetric construction of spirocyclopentenebenzofuranone core s...Scheme 7.42 Application of trienamine catalysis for the construction of spir...Scheme 7.43 Asymmetric synthesis of pyrrolidine‐ and tetrahydrothiophene‐fus...Scheme 7.44 Catalytic asymmetric brominative or chlorinative dearomatization...Scheme 7.45 The synthesis of spiro‐heterocycles by the NHC‐catalyzed annulat...Scheme 7.46 The enantioselective formal [2+1+3] annulation forming spirocycl...Scheme 7.47 Enantioselective ring expansion of vinyl cyclopropanes combining...Scheme 7.48 Catalytic enantioselective synthesis of spirocycles 13.Scheme 7.49 Enantioselective synthesis of spirocyclic benzopyranones by rhod...Scheme 7.50 Enantioselective organometallic approach to chiral spirobenzopyr...Scheme 7.51 Enantioselective synthesis of a‐spirocyclopropyl lactones.Scheme 7.52 Asymmetric synthesis of 3,4‐dihydrocoumarin motif in spirocycle ...Scheme 7.53 Synthesis of highly substituted chiral spirodihydrocoumarins....Scheme 7.54 Organocatalytic tandem Morita–Baylis–Hillman–Michael reaction fo...Scheme 7.55 A chiral squaramide‐catalyzed approach constructing spiro‐3,4‐di...Scheme 7.56 Construction of spiro‐bridged polyheterocyclic compounds.Scheme 7.57 The synthesis of spirocycle compounds via enantioselective organ...Scheme 7.58 Catalytic desymmetrizing dehydrogenation of 4‐substituted cycloh...Scheme 7.59 Enantioselective synthesis of spirocyclic compounds containing b...Scheme 7.60 Asymmetric synthesis of spirocyclic tetrahydrothiophene‐chromano...Scheme 7.61 Enantioselective synthesis of spiro compounds containing tetrahy...Scheme 7.62 Enantioselective construction of polyfunctionalized spiroannulat...Scheme 7.63 A chiral fluoride‐catalyzed asymmetric cascade sulfa‐Michael/ald...Scheme 7.64 Enantioselective synthesis of spirocyclic compounds containing b...Scheme 7.65 Enantioselective synthesis of spirocyclic compounds containing b...Scheme 7.66 The enantioselective approach provides chiral spiro[thiopyranoin...Scheme 7.67 NHC‐catalyzed enantioselective dearomatizing hydroacylation of b...Scheme 7.68 Asymmetric synthesis of spiropyrazolones by complex of rhodium‐c...Scheme 7.69 Enantioselective vinylogous Michael/aldol reaction to synthesize...Scheme 7.70 Highly stereoselective synthesis of spiropyrazolones reported by...Scheme 7.71 The synthesis of unsymmetrical diaryl‐substituted spirocyclohexa...Scheme 7.72 The synthesis of spiropyrazolones via organocatalytic Michael/Mi...Scheme 7.73 Three‐component Michael/Michael/aldol reaction cascade
reported ...Scheme 7.74 Asymmetric synthesis of spiropyrazolones through phosphine‐catal...Scheme 7.75 Asymmetric, three‐component, and one‐pot synthesis of spiropyraz...Scheme 7.76 Mechanism of asymmetric, three‐component, one‐pot synthesis of s...Scheme 7.77 Diastereo‐ and enantioselective construction of cyclohexanone‐fu...Scheme 7.78 Lewis‐base‐catalyzed asymmetric [3+3] annulation reaction of Mor...Scheme 7.79 Asymmetric synthesis of spirocyclohexene pyrazolones via formal ...Scheme 7.80 Enantioselective synthesis of pyrazolone‐fused spirocyclohexenol...Scheme 7.81 Diastereodivergent and enantioselective access to spiroepoxides....Scheme 7.82 Synthesis of chiral pyrazolone and spiropyrazolone derivatives t...Scheme 7.83 NHC‐catalyzed asymmetric formal [4+2] annulation to construct sp...Scheme 7.84 Asymmetric synthesis of spiropyrazolones by sequential organo‐ a...Scheme 7.85 Michael/Conia‐ene cascade reaction under synergistic catalysis p...Scheme 7.86 Diastereoselective and enantioselective synthesis of barbiturate...Scheme 7.87 The enantioselective approaches to spirobarbiturates by using ch...Scheme 7.88 Isothiocyanate strategy for the synthesis of spirocyclic barbitu...Scheme 7.89 Palladium‐catalyzed enantioselective synthesis of spirocyclic az...Scheme 7.90 Application of chiral phosphine in organocatalytic synthesis of ...Scheme 7.91 Anderson’s synthesis of spirocyclic azlactones.Scheme 7.92 Formal [3+2] cycloaddition of vinylcyclopropane azlactones to en...Scheme 7.93 Enantioselective access to spirocyclic sultams by chiral Cp
x–rho...Scheme 7.94 The synthesis of chiral spirosultams by multi sequential reactio...Scheme 7.95 Asymmetric construction of spirocyclic pyrrolidine‐thiazolidined...Scheme 7.96 The enantioselective cycloaddition of cyclic enones with sultams...Scheme 7.97 Asymmetric construction of spiro thiopyrano‐indole‐benzoisothiaz...Scheme 7.98 Enantioselective synthesis of chiral spirocycles containing rhod...Scheme 7.99 Asymmetric synthesis of highly functionalized spirothiazolidinon...Scheme 7.100 Enantioselective construction of spiro chroman‐thiazolones.Scheme 7.101 Catalytic asymmetric synthesis of aromatic spiroketals.Scheme 7.102 Enantio‐ and diastereoselective spiroketalization catalyzed by ...Scheme 7.103 Asymmetric synthesis of spiroketals and spiroaminals.Scheme 7.104 Chiral phosphoric acid‐catalyzed enantioselective and diastereo...Scheme 7.105 Organohalogenite‐catalyzed spiroketalization.Scheme 7.106 Stereoselective three‐component reaction of salicylaldehydes, a...Scheme 7.107 The enantioselective synthesis spiropyrrolidines containing dih...Scheme 7.108 Asymmetric synthesis of spirocyclic β‐lactams through copper‐ca...Scheme 7.109 Hetero‐Diels−Alder process used for the synthesis of spiropyrro...Scheme 7.110 The enantioselective fluorocyclization catalyzed by chiral BINO...Scheme 7.111 Enantioselective cycloaddition to trisubstituted nitroolefins t...Scheme 7.112 Enantioselective access to dispirooxindoles from furfurylcyclob...Scheme 7.113 The enantioselective synthesis of bis‐spiroketals.Scheme 7.114 Highly efficient enantioselective synthesis of bispiro benzofur...
8 Chapter 8Figure 8.1 Common strategies for the synthesis of spirocycles: (a) alkylatio...Scheme 8.1 Spirocyclizations reported by Gade.Scheme 8.2 Spirocyclization reported by Takisawa.Scheme 8.3 Spirocyclization reported by Smith.Scheme 8.4 Synthesis of spirocycles reported by Hashimoto et al.Scheme 8.5 Synthesis of spirofuranes and spiropyrrolidines reported by Mikam...Scheme 8.6 Nicolaou synthesis of platensimycin.Figure 8.2 Proposed mechanism for the Rh‐catalyzed synthesis of spirocycles ...Scheme 8.7 Rh–catalyzed synthesis of spirocycles reported by Shintani and Ha...Scheme 8.8 First asymmetric palladium‐catalyzed synthesis of spirocycles.Scheme 8.9 Pd‐catalyzed synthesis of spirocycles reported by Mikami.Scheme 8.10 Pd‐catalyzed spirocyclization of allyl propargyl ethers.Scheme 8.11 Pd‐catalyzed spirocyclization reported by Toste.Scheme 8.12 Spirocyclization reported by Cai.Scheme 8.13 Spirocyclization reported by Dixon.Scheme 8.14 Spirocyclization reported by Luan.Scheme 8.15 [2+2+2] Cycloaddition reported by Shibata et al.Scheme 8.16 [2+2+2] Cycloaddition with unsymmetrical dialkynes.Scheme 8.17 Synthesis of spirocyclanes via a [2+2+2] cycloaddition reported ...Figure 8.3 Proposed mechanism by Tanaka.Scheme 8.18 [2+2+2] Spirocyclization reported by Tanaka.Scheme 8.19 Copper‐catalyzed enantioselective Diels–Alder reaction.Scheme 8.20 [3+2] Cycloaddition reported by C.‐J. Wang.Scheme 8.21 Spirocyclization reported by Deng.Scheme 8.22 Spirocyclizations reported by Trost and Zhao.Scheme 8.23 Spirocyclization reported by Liu.Scheme 8.24 Spirocyclization reported by Rios.Scheme 8.25 Spirocyclization reported by Liu.Scheme 8.26 Enantioselective PET reaction developed by Bach.Scheme 8.27 Synthesis of spirocyclic β‐lactones developed by Romo.Scheme 8.28 Cascade reaction reported by Wang.Scheme 8.29 Spirocyclization reported by Xie.Scheme 8.30 Spirocyclization reported by Chen.Scheme 8.31 Spirocyclization reported by Jørgensen.Scheme 8.32 Spirocyclopropanation of benzofulvenes.Scheme 8.33 Spirocyclization reported by Lin.Scheme 8.34 Spirocyclization reported by Rodriguez and Bonne.Scheme 8.35 Spirocyclization