Acetylene systems present a new route to cyclic compounds as an
alternative to more traditional methods employed in classical
organic chemistry. The synthesis of cyclic structures based on
acetylene systems has important applications in the formation of
nanostructures, naturally occurring compounds and chemosensory
materials for the design of nonlinear optics, electronic and
photonic devices.
Alkynes in Cycloadditions presents a modern review of
regioselective synthesis of aromatic and non-aromatic carbocyclic
and heterocyclic ring systems based primarily on [2+2+2] and [4+2]
cycloadditions, and other reactions of acetylenic units including
enediynes and enyne-allenes.
Topics covered include:
* New strategies for the formation of aromatic and polynuclear
hydrocarbons based on (Z)-hex-3-en-1, 5-diyne and
(Z)-hepta-1, 2, 4-triene-6-yne blocks.
* One-step synthesis of benzene derivatives, beta-substituted
naphthalenes and acenes by the cycloaromatization of enediynes and
enyne-allenes by Bergman, Myers-Saito and Shmittel.
* Mechanisms of cycloaromatization resulting in the formation of
fulvene and indene systems.
* Heterocyclization involving enyne-carbodiimides.
* New achievements in classical cycloaddition reactions such as
the Diels-Alder condensation with acetylenic dienophiles and [2+2]
cycloadditions with acetylene components
Alkynes in Cycloadditions presents a comprehensive
summary of the literature on methods for the synthesis of ring
systems from acetylenes for academic researchers working in the
fields of organic synthesis, physical organic chemistry,
organometallic chemistry, catalysis, materials science,
nanomaterials and biochemistry.
表中的内容
Preface xi
Acknowledgment xiii
Biography xv
1 Introduction 1
2 Regioselective Syntheses of Polysubstituted Benzenes
Catalyzed by Transition Metal Complexes 5
2.1 Reactions of [2+2+2] Cycloaddition of Acetylene Units 5
2.2 Stereochemical Aspect of The Problem of Intermolecular
Reactions of Diynes with Monoalkynes 18
2.3 Heteroatom Bound to the Triple Bond 28
2.4 Heterohelicens. Asymmetric Syntheses 34
2.5 Aromatic Rings with Boron and Silicon Substituents 38
2.6 [2+2+2] Cycloaddition Reactions of 1-Alkynylphosphines and
Their Derivatives 40
2.7 Intramolecular [2+2+2] Cycloaddition of Diynes to Alkenes
45
2.8 Polysubstituted Benzenes. Reactions of [4+2] Cycloaddition
and Other Approaches 53
2.9 Combined Reactions 63
2.10 Construction of Polycyclic Systems 71
3 Radical Cycloaromatization of Systems Containing
(Z)-3-hexene-1, 5-diynes and (Z)-1, 2, 4-heptatrien-6-ynes and Related
Heteroatomic Blocks 107
3.1 The Historical Aspect of the Chemistry of Enediynes,
Enyne-Allenes and Enyne-Cumulenes 107
3.2 Routes to the Cycloaromatization of Enediyne and
Enyne-Allene Systems. Bergman and Myers-Saito Cyclization
113
3.3 Cycloaromatization by C1-C5, C2-C7 and
C2-C6 (Myers-Saito and Schmittel) Routes to
Indeno-Fused Structures 135
3.4 External Initiation of the Enediyne Cycloaromatization
157
3.5 Features of Cycloaromatization of Heteroatomic Enediynes
179
3.6 Cycloaromatization of Hetero-Systems 223
4 Selected Cycloaddition and Heterocyclization Reactions with
Unusual Acetylenic and Allenic Starting Compounds 233
4.1 Cycloaddition and Heterocyclization Reactions of Acetylenic
Compounds with Electron-Withdrawing Substituents 233
4.2 Diels-Alder [4+2] Cycloaddition: Acetylenes as
Dienophiles 235
4.3 Formation of Cyclobutene Derivatives by [2+2]-Cycloaddition
237
4.4 [2+2] Cyclization of Some 1, 3-Butadienes Produced from
Acetylenic Alcohols of Propargyl Type 243
4.5 Heterocyclization of Electron-Deficient Acetylenes with
Nucleophilic Reagents 245
5 Concluding Remarks 249
Index
关于作者
Professor Irina A. Maretina, St Petersburg State Institute of Technology, St. Petersburg, Russia. Irina Maretrina is a well-known name in the field of acetylene chemistry. Her research focuses on the chemistry of alkynes, in particular diacetylenes and the synthesis and reactivity of unsaturated heteroatomic compounds, including nitrogen-containing heterocyclic compounds.
Professor Boris I. Ionin (Translator), St Petersburg State Institute of Technology, Department of Organic Chemistry, St Petersburg, Russia. Boris Ionin is a renowned organic chemist specializing in acetylene and phosphorus chemistry, and nuclear magnetic resonance. He is an Editorial Board member for the Russian Journal of General Chemistry and Editor for the English translation of this journal.
John C. Tebby (Consulting Editor), Emeritus Professor FRSC DSc, former Head of Chemistry, Staffordshire University.