| Chapter headings: Substituted Heterocyclic Compounds by Selective Control of Halogen-Dance Reactions / J. Frohlich |
| Heterocycles as Vehicles for Synthesis / A. Padwa |
| Three-Membered Ring Systems / S.S. Murphree |
| Four-Membered Ring Systems / J. Parrick ; L.K. Mehta |
| Five-Membered Ring Systems |
| Six-Membered Ring Systems |
| Seven-Membered Rings / M. Balasubramanian |
| Eight-Membered and Larger Rings / G.R. Newkome |
| Subject Index |
| Chapter headings: Polyfunctionalized Pyrroles and Pyrazoles from Conjugated Azoalkenes |
| Application of Diels-Alder Cycloaddition Chemistry for Heterocyclic Synthesis |
| Subject index |
| Foreword |
| Editorial Advisory Board Members |
| Recent Advances in the Synthesis of Heterocycles via Ring-Closing Metathesis / Michael A. WaltersChapter 1: |
| Chapter headings |
| The Junjappa-Ila JI)-heteroaromatic annulation / Chapter 2: |
| The synthesis of fused 7-azanorbornanes / James W. Pavlik |
| Three-membered ring systems |
| Four-membered ring systems |
| Photochemical Isomerizations of Some Five-Membered Heteroaromatic Azoles |
| Five-membered ring systems |
| Six-membered ring systems / Chapter 3: |
| Seven-membered rings / Gordon W. Gribble |
| Eight-membered and larger rings |
| Naturally Occurring Halogenated Pyrroles and Indoles |
| Three- and Four-Membered Ring Systems / Chapter 4: |
| Thiophenes & Se, Te Analogs / Albert Padwa ; Shaun Murphree ; Benito Alcaide ; Pedro Almendros ; Erin T. PelkeyPart 1.: |
| Pyrroles and Benzo Derivatives / Tomasz Janosik ; Jan Bergman |
| Furans and Benzofurans / Xue-Long Hou ; Zhen Yang ; Henry N. C. WongPart 3.: |
| With More than One N Atom / Larry YetPart 4.: |
| With N & S (Se) Atoms / David J. Wilkins ; Paul A. BradleyPart 5.: |
| With O & S (Se, Te) Atoms / R. Alan Aitken ; Stephen J. CostelloPart 6.: |
| With O & N Atoms / Stefano Cicchi ; Franca M. Cordero ; Donatella GiomiPart 7.: |
| Pyridines and Benzo Derivatives / D. Scott Coffey ; Stanley P. Kolis ; Scott A. MayChapter 6: |
| Diazines and Benzo Derivatives / Michael P. Groziak |
| Triazines, Tetrazines and Fused Ring Polyaza Systems / Carmen Ochoa ; Pilar Goya |
| With O and/or S Atoms / John D. Hepworth ; B. Mark Heron |
| Index / John D. Bremner ; George R. NewkomeChapter 7: |
| The Synthesis of Oxazoles from Diazocarbronyl Compounds / C.J. Moody ; K.J. Doyle |
| The Heterocyclic Chemistry Associated with the Herbicide Glyphosate / J.A. Sikorski |
| Five-Membered Ring Systems. Thiophenes & Se & Te analogs / J. B. Press ; E.T. Pelkey |
| Pyrroles and benzo derivatives / D.M. Ketcha |
| Furans and benzo derivatives / S. Reck ; W. Friedrichsen |
| With more than one N atom / M.A. Walters ; J.R. Vargas |
| With N & S Se) atoms / P.A. Bradley ; D.J. Wilkins |
| With O & SSe, Te) atoms / R.A. Aitken ; L. Hill |
| With O & N atoms / G.V. Boyd |
| Six-Membered Ring Systems. Pyridine and benzo derivatives / D.L. Comins ; S. O'Connor |
| Diazines and benzo derivatives / M.P. Groziak |
| Triazines, tetrazines and fused polyaza systems / D.T. Hurst |
| With O and/or S atoms / J.D. Hepworth ; B.M. Heron |
| Geminal Diazides of Heterocycles / D.J. Le Count ; Th. Kappe ; C.O. Kappe |
| Radical Methods the Synthesis of Heterocyclic Compounds / M.P. Sibi ; J. Ji |
| Thiophenes & Se & Te Analogs / R.K. Russell ; J.B. Press |
| Furans and Benzo Derivatives / R.J. Sundberg ; St. Reck |
| With N and S Se) Atoms / S.A. Lang, Jr ; V.J. Lee ; R. Tanaka |
| With O & S Se, Te) Atoms |
| Pyridine and Benzo Derivatives / J.E. Toomey ; R. Murugan |
| Extrusion of SO 2 from Heterocyclic Compounds, Part 2: Five-Membered Rings |
| Methyl 2-Benzoylamino-3-Dimethylaminopropenoate in the Synthesis of Heterocyclic Systems |
| The Diels-Alder cycloadditions of 3,5-dibromo-2-pyrone and its derivatives / Heui-Yeon Kim ; Cheon-Gyu Cho |
| Overview of the Diels-Alder chemistry of 2-pyrone / 1.1: |
| 3,5-Dibromo-2-pyrone / 1.2: |
| [4+2] Cycloadditions of 3.5-dibromo-2-pyrone / 1.2.1: |
| Synthesis and cycloadditions of substituted monobromo-2-pyrones / 1.2.2: |
| Intramolecular Diels-Alder cycloadditions of 2-pyrones / 1.2.3: |
| Conclusion / 1.3: |
| Acknowledgements / 1.4: |
| References / 1.5: |
| Recent developments in the chemistry of nucleosides / Jean-Luc Girardet ; Stanley A. Lang |
| Introduction / 2.1: |
| Sugar chemistry / 2.2: |
| Hydrogen and oxygen substitutions / 2.2.1: |
| Modifications at C-1' / 2.2.1.1: |
| Modifications at C-2' / 2.2.1.2: |
| Modifications at C-3' / 2.2.1.3: |
| Modifications at C-4' / 2.2.1.4: |
| Modifications at C-5' / 2.2.1.5: |
| Ring-oxygen substitution / 2.2.2: |
| Substitution with carbon / 2.2.2.1: |
| Substitution with sulfur / 2.2.2.2: |
| Substitution with nitrogen / 2.2.2.3: |
| Nucleosides with bicyclic sugars / 2.2.3: |
| Spiro nucleosides / 2.2.3.1: |
| Bicyclic nucleosides / 2.2.3.2: |
| Combinatorial approaches / 2.3: |
| 2004 / 2.4: |
| Epoxides / 3.1.1: |
| Preparation of epoxides / 3.1.2.1: |
| Reactions of epoxides / 3.1.2.2: |
| Aziridines / 3.1.3: |
| Preparation of aziridines / 3.1.3.1: |
| Reactions of aziridines / 3.1.3.2: |
| 2005 / Stephen C. Bergmeier ; Damon D. Reed3.1.4: |
| Azetidines and azetes / 3.2.1: |
| Monocyclic 2-azetidinones ([beta]-lactams) / 4.3: |
| Fused polycyclic [beta]-lactams / 4.4: |
| Oxetanes, dioxetanes, oxetes and 2-oxetanones ([beta]-lactones) / 4.5: |
| Thietanes, [beta]-sultams, and related systems / 4.6: |
| Silicon and phosphorus heterocycles. miscellaneous / 4.7: |
| Thiophenes and Se/Te Analogues / 4.8: |
| Thiophene ring synthesis / 5.1.1: |
| Reactions of thiophenes / 5.1.3: |
| Non-polymeric thiophene organic materials / 5.1.4: |
| Thiophene oligomers and polymers / 5.1.5: |
| Thiophene derivatives in medicinal chemistry / 5.1.6: |
| Selenophenes and tellurophenes / 5.1.7: |
| Synthesis of pyrroles / 5.1.8: |
| Intramolecular approaches / 5.2.2.1: |
| Intermolecular approaches / 5.2.2.2: |
| Transformation of other heterocycles / 5.2.2.3: |
| Reactions of pyrroles / 5.2.3: |
| Substitution at nitrogen / 5.2.3.1: |
| Substitution at carbon / 5.2.3.2: |
| Functionalization of the side-chain / 5.2.3.3: |
| Pyrrole natural products and materials / 5.2.4: |
| Natural products / 5.2.4.1: |
| Macrocycles and oligopyrroles / 5.2.4.2: |
| Non-oligomeric materials / 5.2.4.3: |
| Synthesis of indoles / 5.2.5: |
| Oxindoles, azaindoles, and carbazoles / 5.2.5.1: |
| Reactions of indoles / 5.2.6: |
| Substitution at C-2/C-3 / 5.2.6.1: |
| Functionalization of the benzene ring / 5.2.6.3: |
| Indole natural products / 5.2.6.4: |
| Furans and benzofurans / Kap-Sun Yeung5.2.7.1: |
| Reactions / 5.3.1: |
| Furans / 5.3.2.1: |
| Di- and tetrahydrofurans / 5.3.2.2: |
| Synthesis / 5.3.3: |
| Benzo[b]furans and related compounds / 5.3.3.1: |
| Benzo[c]furans and related compounds / 5.3.3.4: |
| With more than One N Atom / 5.3.4: |
| Pyrazoles and ring-fused derivatives / 5.4.1: |
| Imidazoles and ring-fused derivatives / 5.4.3: |
| 1,2,3-Triazoles and ring-fused derivatives / 5.4.4: |
| 1,2,4-Triazoles and ring-fused derivatives / 5.4.5: |
| Tetrazoles and ring-fused derivatives / 5.4.6: |
| With N and S (Se) atoms / Yong-Jin Wu ; Bingwei V. Yang5.4.7: |
| Thiazoles / 5.5.1: |
| Synthesis of thiazoles and fused derivatives / 5.5.2.1: |
| Synthesis of thiazolines / 5.5.2.2: |
| Synthesis of 2-imino-thiazolidine and thiazoline derivatives / 5.5.2.3: |
| Reactions of thiazoles and fused derivatives / 5.5.2.4: |
| Reactions of thiazolines / 5.5.2.5: |
| Thiazole intermediates in synthesis / 5.5.2.6: |
| Thiazolium-catalyzed and-mediated reactions / 5.5.2.7: |
| Thiazole-containing drug candidates / 5.5.2.9: |
| New thiazole-containing natural products / 5.5.2.10: |
| Isothiazoles / 5.5.3: |
| Synthesis of isothiazoles by ring-formation / 5.5.3.1: |
| Reactions of isothiazoles / 5.5.3.2: |
| Isothiazoles as auxiliaries in organic syntheses / 5.5.3.3: |
| Biologically interesting isothiazoles / 5.5.3.4: |
| Thiadiazoles and selenadiazoles / 5.5.4: |
| 1,3-Selenazoles, 1,3-selenazolidines and 1,3-tellurazoles / 5.5.5: |
| With O and S (Se, Te) atoms / Lynn A. Power5.5.6 Acknowledgement: |
| 1,3-Dioxoles and dioxolanes / 5.6.1: |
| 1,3-Dithioles and dithiolanes / 5.6.2: |
| 1,3-Oxathioles and oxathiolanes / 5.6.3: |
| 1,2-Dioxolanes / 5.6.4: |
| 1,2-Dithioles and dithiolanes / 5.6.5: |
| 1,2-Oxathioles and oxathiolanes / 5.6.6: |
| Three heteroatoms / 5.6.7: |
| With O and N atoms / 5.6.8: |
| Isoxazoles / 5.7.1: |
| Isoxazolines / 5.7.2: |
| Isoxazolidines / 5.7.3: |
| Oxazoles / 5.7.4: |
| Oxazolines / 5.7.5: |
| Oxazolidines / 5.7.6: |
| Oxadiazoles / 5.7.7: |
| Pyridines and benzo derivatives / Heidi L. Fraser ; M. Brawner Floyd ; Darrin W. Hopper5.7.8: |
| Pyridines / 6.1.1: |
| Preparation of pyridines / 6.1.2.1: |
| Reactions of pyridines / 6.1.2.2: |
| Pyridine N-oxides and pyridinium Salts / 6.1.2.3: |
| Quinolines / 6.1.3: |
| Preparation of quinolines / 6.1.3.1: |
| Reactions of quinolines / 6.1.3.2: |
| Tsoquinolines / 6.1.4: |
| Preparation of isoquinolines / 6.1.4.1: |
| Reactions of isoquinolines / 6.1.4.2: |
| Piperidines / 6.1.5: |
| Preparations of piperidines / 6.1.5.1: |
| Triazines, tetrazines and fused ring polyaza systems / Cristina Gomez de la Oliva6.1.6: |
| Triazines / 6.3.1: |
| 1,2,3-Triazines / 6.3.1.1: |
| 1,2,4-Triazines / 6.3.1.2: |
| 1,3,5-Triazines / 6.3.1.3: |
| Tetrazines / 6.3.2: |
| Fused [6]+[5] polyaza systems / 6.3.3: |
| Triazino and tetrazino [6+5] fused systems / 6.3.3.1: |
| Purines and related structures / 6.3.3.2: |
| Fused [6]+[6] polyaza systems / 6.3.4: |
| Miscellaneous fused polyaza systems / 6.3.5: |
| Heterocycles containing one oxygen atom / 6.3.6: |
| Pyrans / 6.4.2.1: |
| [1]Benzopyrans and dihydro[1]benzopyrans / 6.4.2.2: |
| [2]Benzopyrans and dihydro[2]benzopyrans / 6.4.2.3: |
| Pyrylium Salts / 6.4.2.4: |
| Pyranones / 6.4.2.5: |
| Coumarins / 6.4.2.6: |
| Chromones / 6.4.2.7: |
| Xanthones and xanthenes / 6.4.2.8: |
| Heterocycles containing one sulfur atom / 6.4.3: |
| Thiopyrans and analogues / 6.4.3.1: |
| Heterocycles containing two or more oxygen atoms / 6.4.4: |
| Dioxins and dioxanes / 6.4.4.1: |
| Trioxanes / 6.4.4.2: |
| Heterocycles containing two or more sulfur atoms / 6.4.5: |
| Dithianes and trithianes / 6.4.5.1: |
| Heterocycles containing both oxygen and sulfur in the same ring / 6.4.6: |
| Oxathianes / 6.4.6.1: |
| Seven-membered ring systems / John B. Bremner ; Siritron Samosorn6.4.7: |
| Seven-membered systems containing one heteroatom / 7.1: |
| Azepines and derivatives / 7.2.1: |
| Fused azepines and derivatives / 7.2.2: |
| Oxepines and fused derivatives / 7.2.3: |
| Thiepines and fused derivatives / 7.2.4: |
| Seven-membered systems containing two heteroatoms / 7.3: |
| Diazepines and fused derivatives / 7.3.1: |
| Dioxepines, dithiepines and fused derivatives / 7.3.2: |
| Miscellaneous derivatives with two heteroatoms / 7.3.3: |
| Seven-membered systems containing three or more heteroatoms / 7.4: |
| Systems with N, S and/or O / 7.4.1: |
| Seven-membered systems of pharmacological significance / 7.5: |
| Future directions / 7.6: |
| Carbon-oxygen rings / 7.7: |
| Carbon-nitrogen rings / 8.3: |
| Carbon-sulfur rings / 8.4: |
| Carbon-silicon rings / 8.5: |
| Carbon-selenium rings / 8.6: |
| Carbon-oxygen/carbon-nitrogen rings / 8.7: |
| Carbon-nitrogen-oxygen rings / 8.8: |
| Carbon-nitrogen-sulfur rings / 8.9: |
| Carbon-phosphorus-sulfur rings / 8.10: |
| Carbon-phosphorus-nitrogen rings / 8.11: |
| Carbon-selenium-nitrogen rings / 8.12: |
| Carbon-sulfur-oxygen rings / 8.13: |
| Carbon-nitrogen-sulfur-oxygen rings / 8.14: |
| Carbon-nitrogen-metal rings / 8.15: |
| Carbon-phosphorus-metal rings / 8.16: |
| Carbon-oxygen-nitrogen-metal rings / 8.17: |
| Carbon-sulfur-nitrogen-metal rings / 8.18: |
| Carbon-phosphorus-oxygen-metal rings / 8.19: |
| 2-Indolylacyl radicals in the synthesis of indole compounds / M.-Lluisa Bennasar ; Tomas Roca8.20: |
| Radical reactions in synthesis: a short overview |
| 2-Indolylacyl radicals: intermolecular and cascade reactions |
| Intermolecular addition reactions / 1.3.1: |
| Intermolecular addition-indole cyclisation cascade reactions / 1.3.2: |
| Intramolecular reactions of 2-indolylacyl radicals with alkenes |
| Cyclization of 5-hexenoyl radicals. Total synthesis of ([plus or minus])-guatambuine / 1.4.1: |
| Cyclization of 6-heptenoyl radicals / 1.4.2: |
| Cyclization of 7-octenoyl radicals / 1.4.3: |
| Intramolecular reactions of 2-indolylacyl radicals with aromatic and heteroaromatic systems |
| Cyclization upon benzenes / 1.5.1: |
| Cyclization upon pyridines / 1.5.2: |
| Cyclization upon quinolines. Synthesis of calothrixin B / 1.5.3: |
| Acknowledgments / 1.6: |
| Cascade reactions of carbonyl ylides for heterocyclic synthesis / 1.8: |
| Carbonyl ylide cycloadditions |
| Intramolecular carbenoid-carbonyl cyclization sequence |
| Application of the method toward complex tetrahydrofuranyl natural products |
| Isomunchnone cycloadditions |
| Intramolecular isomunchnone cycloadditions / 2.2.4: |
| Cyclization-cycloaddition-cationic [pi]-cyclization reactions / 2.2.5: |
| Cycloadditions across heteroaromatic [pi]-systems / 2.2.6: |
| Push-pull carbonyl ylide cycloadditions / 2.2.7: |
| Azetidines, 3-azetidinones, and diazetines / David J. Lapinsky3.1: |
| Fused and spirocyclic [beta]-lactams |
| Oxetanes, dioxetanes, oxetanediones and 2-oxetanones ([beta]-lactones) |
| Thiophenes and Se/Te analogs |
| Pyrroles and benzo analogs / Jonathon S. Russel |
| Intramolecular approaches to pyrroles |
| Intermolecular approaches to pyrroles |
| Transformations of heterocycles and carbocycles to pyrroles |
| Substitutions at pyrrole nitrogen |
| Substitution at pyrrole carbon |
| Transformations of pyrroles to other heterocycles / 5.2.3.4: |
| Pyrrole natural products |
| Pyrrole materials |
| Pericyclic transformations |
| Substitution and C-2/C-3 |
| Carbazoles and azaindoles |
| Carbazole natural products and ring synthesis |
| Azaindole ring synthesis / 5.2.7.2: |
| Natural products isolation and characterization / 5.2.8.1: |
| Total synthesis: indole core and side-chain modifications / 5.2.8.2: |
| [beta]-Carbolines and tetrahydro-[beta]-carbolines / 5.2.8.3: |
| Oxindole and spirooxindole / 5.2.8.4: |
| Biochemical and medicinal chemistry / 5.2.9: |
| Synthesis of thiazoles / 5.2.10: |
| Synthesis of fused thiazoles |
| Thiazolium-catalyzed reactions |
| Synthesis of thiazole-containing natural products |
| Synthesis of isothiazoles / 5.5.2.8: |
| Isothiazoles as auxiliaries and reagents in organic syntheses |
| Pharmaceutically interesting isothiazoles |
| Thiadiazoles and selenodiazoles |
| 1,3-Selenazoles, 1,3-selenadolidines and 1,3-tellurazoles |
| Pyridine N-oxides and pyridinium salts / Kristina M.K. Kutterer ; Jeremy J. Clemens ; Aimee L. Crombie5.5.6: |
| Isoquinolines |
| Reviews and general studies / Amelia Manlove6.2.1: |
| Pyridazines and benzo derivatives / 6.2.3: |
| Syntheses / 6.2.3.1: |
| Applications / 6.2.3.2: |
| Pyrimidines and benzo derivatives / 6.2.4: |
| Pyrazines and benzo derivatives / 6.2.4.1: |
| With O and/or S atoms (2006) / 6.2.5.1: |
| [1]Benzopyrans and dihydro[1]benzopyrans (chromenes and chromans) |
| [2]Benzopyrans and dihydro[2]benzopyrans (isochromenes and isochromans) |
| Tetraoxanes / 6.4.4.3: |
| With O and/or S atoms (2007) |
| Pyrylium salts |
| Benzoazepines and derivatives / Jason A. Smith ; John H. Ryan |
| Oxepine and fused derivatives |
| Thiepine and fused derivatives / 7.2.5: |
| Carbon-nitrogen-sulfur-metal rings |
| Carbon-phosphous-oxygen-metal rings |
| Carbon-nitrogen-phosphorus-sulfur-metal rings |
| Biocatalytic approaches to chiral heterocycles |
| Ring-expanded ('fat') purines and their nucleoside/nucleotide analogues as broad-spectrum therapeutics |
| Five-membered ring systems: Thiophenes and Se/Te analogues |
| Furans and benzofurans With more than one N atom |
| With O & S (Se, Te) atoms |
| Pyridine and benzo derivatives |
| Triazines, tetrazines and fused ring polyaza systems (2007) |
| Triazines, tetrazines and fused ring polyaza systems (2008) |
| Recent Advances in the C-2 Regioselective Direct Arylation of Indoles / Tanya C. Boorman ; Igor Larrosa1: |
| Cross-Coupling Reactions |
| Direct Arylation Reactions |
| Oxidative Coupling Reactions |
| Conclusions |
| Heterocyclic Dyes: Preparation, Properties, and Applications / S. Shaun Murphree2: |
| Five-Membered Rings Containing Oxygen: Furanoids |
| Six-Membered Rings Containing Oxygen: Pyranoids |
| Five-Membered Rings Containing Nitrogen |
| Six-Membered Rings Containing Nitrogen |
| Five-Membered Rings Containing Sulfur / 2.6: |
| Azetidines, Azetines, and Related Systems / 3: |
| Monocyclic 2-Azetidinones (β-Lactams) |
| Fused and Spirocyclic β-Lactams |
| Oxetanes, Dioxetanes, Dioxetanones and 2-Oxetanones (β-Lactones) |
| Thietanes, β-Sultams, and Related Systems |
| Silicon and Phosphorus Heterocycles: Miscellaneous |
| Five-Membered Ring Systems: Thiophenes and Se/Te Derivatives / Edward R. Biehl5.1: |
| Reviews, Accounts and Books on Thiophene Chemistry |
| Synthesis of Thiophenes |
| Elaboration of Thiophenes and Benzothiophenes |
| Synthesis of Thiophenes for Use in Material Science |
| Thiophenes Derivatives in Medicinal Chemistry |
| Selenophenes and Tellurophenes |
| Five-Membered Ring Systems: Pyrroles and Benzo Analogs / Jonathan S. Russel ; Sarah J. P. Yoon-Miller5.2: |
| Synthesis of Pyrroles |
| Reactions of Pyrroles |
| Synthesis of Indoles |
| Reactions of Indoles |
| Oxindoles and Spirooxindoles |
| Carbozoles |
| Azaindoles and Carboline Analogs |
| Indole Natural Products |
| Five-Membered Ring Systems: Furans and Benzofurans / Xiao-Shui Peng5.3: |
| Five Membered Ring Systems: With More than One N Atom / 5.4: |
| Pyrazoles and Ring-Fused Derivatives |
| Imidazoles and Ring-Fused Derivatives |
| 1,2,3-Triazoles and Ring-Fused Derivatives |
| 1,2,4- Triazoles and Ring-Fused Derivatives |
| Tetrazoles and Ring-Fused Derivatives |
| Five-Membered Ring Systems: With N and S (Se) Atoms / Y.-J. Wu5.5: |
| Thiadiazoles and Selenodiazoles |
| Selenazoles, 1,3-Selenadolidines and Telenazoles |
| Five-Membered Ring Systems: With O & S (Se, Te) Atoms / 5.6: |
| 1,3-Dioxoles and Dioxolanes |
| 1,3-Dithioles and Dithiolanes |
| 1,3-Oxathioles and Oxathiolanes |
| 1,2-Dithioles and Dithiolanes |
| 1,2-Oxathioles and Oxathiolanes |
| Three Hetero Atoms |
| Five-Membered Ring Systems with O & N Atoms / 5.7: |
| Six-Membered Ring Systems: Pyridines and Benzo Derivatives / Philip E. Alford6.1: |
| Special Topic: Supramolecular Chemistry |
| Six-Membered Ring Systems: Diazines and Benzo Derivatives / Michael M. Miller ; Albert J. DelMonte6.2: |
| Pyridazines and Benzo Derivatives |
| Pyrimidines and Benzo Derivatives |
| Pyrazines and Benzo Derivatives |
| Fused [6]+[5] Polyaza Systems / Dmitry N. Kozhevnikov ; Anton M. Prokhorov6.3: |
| Fused [6]+[6] Polyaza Systems |
| Six-Membered Ring Systems: With O and/or S Atoms / 6.4: |
| Heterocycles Containing One Oxygen Atom |
| Heterocycles Containing One Sulfur Atom |
| Heterocycles Containing Two or More Oxygen Atoms |
| Heterocycles Containing Two or More Sulfur Atoms |
| Heterocycles Containing Both Oxygen and Sulfur in the Same Ring |
| Seven-Membered Systems Containing One Heteroatom / Peter P. Molesworth ; Christopher J. T. Hyland7: |
| Seven-Membered Systems Containing Two Heteroatoms |
| Seven-Membered Systems Containing Three or More Heteroatoms |
| Seven-Membered Systems of Pharmacological Significance |
| Future Directions |
| Carbon-Oxygen Rings / 8: |
| Carbon-Nitrogen Rings |
| Carbon-Sulfur Rings |
| Carbon-Selenium Rings |
| Carbon-Nitrogen-Oxygen Rings |
| Carbon-Nitrogen-Sulfur Rings |
| Carbon-Sulfur-Oxygen Rings |
| Carbon-Oxygen-Silicon Rings |
| Carbon-Oxygen-Phosphorus Rings |
| Carbon-Nitrogen-Phosphorus Rings |
| Carbon-Nitrogen-Selenium Rings |
| Carbon-Nitrogen-Sulfur-Oxygen Rings |
| Carbon-Nitrogen-Phosphorus-Sulfur Rings |
| Carbon-Nitrogen-Metal Rings |
| Carbon-Nitrogen-Oxygen-Metal Rings |
| Carbon-Nitrogen-Sulfur/Phosphorus-Metal Rings |
| Recent Advances in the Synthesis of Aspidosperma-Jype Alkaloids / Justin M. Lopchuk |
| Aspidospermine and Aspidospermidine |
| Aspidofractinine |
| Tabersonine |
| Subincanadines |
| Meloscine |
| Miscellaneous Approaches to the General Aspidosperma Core |
| Vindoline, Vinblastine, and Vincristine |
| Aspidophytine and Haplophytine / 1.9: |
| Conophylline and Conophyliidine / 1.10: |
| Synthesis of Heterocycles by Palladium-Catalyzed Intramolecular Heteroarylation / Dmytro Tymoshenko ; Gyorgy Jeges ; Brian T. Gregg |
| Introduction and Scope of the Review |
| Annulation of Five-Membered Aza-Rings |
| Annulation of Six-Membered Aza-Rings |
| Annulation of Medium Size Aza-Rings |
| Macrocycles |
| Tandem Sequences, Cascades, and Miscellaneous Cyclizations |
| Monocyclic 2-azetidinones (β-lactams) / 2.7: |
| Fused and Spirocyclic β-lactams |
| Oxetanes, Dioxetanes, Dioxetanones, and 2-oxetanones (β-lactones) |
| Thietanes and Related Systems |
| Reviews, Accounts, and Books on Thiophene, Selenophene, and Tellurophene Chemistry |
| Synthesis of Thiophenes For Use in Material Science |
| Thiophene Derivatives in Medicinal Chemistry |
| Carbazoles / Jessica G. Greger |
| Carboline Analogs and Azaindoles |
| Five-Membered Ring Systems: With More than One N Atom / Jie Wu |
| Pyrazoles and Ring-fused Derivatives |
| Imidazoles and Ring-fused Derivatives |
| 1,2,3-Triazoles and Ring-fused Derivatives |
| 1,2,4-Triazoles and Ring-fused Derivatives |
| Tetrazoles and Ring-fused Derivatives |
| Selenazoles |
| Five-Membered Ring Systems: With O and S (Se, Te) Atoms |
| 1,3-Dioxoles and 1,3-Dioxolanes |
| 1,3-Dithioles and 1,3-Dithiolanes |
| 1,3-Oxathioles and 1,3-Oxathiolanes |
| 1,2-Dithioles and 1,2-Dithiolanes |
| 1,2-Oxathioles and 1,2-Oxathiolanes |
| Three Heteroatoms |
| Five-Membered Ring Systems with O and N Atoms |
| Triazines, Tetrazines, and Fused Ring Polyaza Systems |
| Fused [6] + [5] Polyaza Systems |
| Fused [6] + [6] Polyaza Systems |
| Six-Membered Ring Systems: With 0 and/or S Atoms |
| Heterocydes Containing One Oxygen Atom |
| Heterocydes Containing One Sulfur Atom |
| Heterocydes Containing Two or More Oxygen Atoms |
| Heterocydes Containing Two or More Sulfur Atoms |
| Heterocydes Containing Both Oxygen and Sulfur in the Same Ring |
| Seven-membered Systems Containing Three or More Heteroatoms / Jarrod L. Green ; Christopher Hyland ; Charlotte C. Williams |
| Carbon-Silicon Rings |
| Carbon-Oxygen/Carbon-Nitrogen-Oxygen Rings |
| Carbon-Sulfur-Phosphorus/Arsenic/Antimony/Bismuth Rings |
| Carbon-Selenium-Iron Rings |
| Heterocycles and Medicine: A Survey of the Heterocyclic Drugs Approved by the U.S. FDA from 2000 to Present |
| Furan and Benzofuran |
| Thiophene |
| Pyrrole |
| Thiazole |
| Imidazole and Fused Imidazole |
| Triazole |
| Pyrazole |
| Oxadizole and Thiadiazole |
| Pyridine |
| Pyrimidine and Pyrimidinone / 1.11: |
| Pyrazine / 1.12: |
| Piperazine / 1.13: |
| Morpholine / 1.14: |
| Indole / 1.15: |
| Indazole / 1.16: |
| Oxindole / 1.17: |
| Quinoline and Dihydroquinoiine / 1.18: |
| Benzoazepines and Oxepine / 1.19: |
| Pyrrolopyrimidine and Pyrrolopyridine / 1.20: |
| Benzoisoxazoles and Benzoisothiazole / 1.21: |
| Quinazoline / 1.22: |
| Quinoxaline / 1.23: |
| Pteridine / 1.24: |
| Progress in Quinoxaline Synthesis (Part 1) / Vakhid A. Mamedov ; Nataliya A. Zhukova1.25: |
| Inttoduaion |
| Condensation of 1,2-Diaminobenzenes (1,2-DABs; ortho-Phenylenediamines) and Derivatives with Various Two-Carbon Unit Suppliers |
| Condensation of o-Benzoquinone Diimines and Diimides with Various Two-Carbon Unit Suppliers |
| Oxetanes, Dioxetanes, and 2-Oxetanones (β-Lactones) |
| Silicon and Phosphorus Heterocycles. Miscellaneous |
| Synthesis of Thiophenes, Se/Te for Use in Material Science |
| Thiophene, Se/Te Derivatives in Medicinal Chemistry |
| Isatins, Oxindoles, Indoxyls, and Spirooxindoles |
| Isoindoies |
| 1,2,4-Triazoles and Ring-Fused Derivatives |
| Thiadiazoles |
| Five-Membered Ring Systems: With 0 and S (Se, Te) Atoms |
| Six-Membered Ring Systems: Pyridine and Benzo Derivatives / Tara L.S. Kishbaugh |
| Synthesis of Pyridine N-Oxides |
| Reactions of Pyridine N-Oxides |
| Isoquinolines and Quinolines |
| Carbon-Phosphorus Rings / Clementina M.M. Santos ; Artur M.S. Silva ; Adam G. Meyer ; JieXiang Yin |
| Carbon-Oxygen-Sulfur Rings |
| Carbon-Oxygen/Nitrogen-Phosphorus Rings |
| Carbon-Sulfur-Arsenic Rings |
| Carbon-Nitrogen-Oxygen-Sulfur Rings |
| Carbon-Nitrogen-Oxygen-Phosphorus Rings |
