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UID:

Umfang: 1 Online-Ressource , v.: digital

Ausgabe: Third Expanded Edition

Ausgabe: Online_Ausgabe Berlin, Heidelberg Springer-Verlag Berlin Heidelberg 2006 Springer ebook collection / Chemistry and Materials Science 2005-2008 Sonstige Standardnummer des Gesamttitels: 041171-1

ISBN: 9783540300304 , 9783540300311

Weitere Ausg.: Reproduktion von Name Reactions 2006

Sprache: Englisch

Fachgebiete: Chemie/Pharmazie

Schlagwort(e): Namensreaktion ; Reaktionsmechanismus ; Organische Chemie ; Namensreaktion ; Reaktionsmechanismus ; Wörterbuch ; Wörterbuch

URL: Volltext

URL: Volltext

URL: Cover

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Umfang: XXII, 621 S. : , Ill., graph. Darst.

Ausgabe: 4., expanded ed.

ISBN: 978-3-642-01052-1 , 3-540-30030-9

Sprache: Englisch

Fachgebiete: Chemie/Pharmazie

Schlagwort(e): Namensreaktion ; Reaktionsmechanismus ; Organische Chemie ; Namensreaktion ; Reaktionsmechanismus ; Wörterbuch ; Wörterbuch ; Wörterbuch

URL: http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017714672&sequence=000004&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA

URL: http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017714672&sequence=000004&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA

URL: Inhaltstext

URL: Verlagsangaben

URL: Einführung/Vorwort

URL: Kapitel 1

URL: Cover

URL: Inhaltsverzeichnis

Mehr zum Autor: Li, Jie Jack 1964-

UID:

Umfang: XX, 652 S. : , Ill., graph. Darst. ; , 235 mm x 155 mm.

Ausgabe: 3., expanded ed.

ISBN: 978-3-540-30030-4 , 3-540-30030-9

Sprache: Englisch

Fachgebiete: Chemie/Pharmazie

Schlagwort(e): Organische Chemie ; Namensreaktion ; Reaktionsmechanismus ; Namensreaktion ; Reaktionsmechanismus ; Wörterbuch ; Wörterbuch

URL: Inhaltstext

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

URL: Verlagsangaben

URL: Inhaltstext

URL: Cover

Mehr zum Autor: Li, Jie Jack, 1964-

UID:

Umfang: Online-Ressource (XX, 652 S.)

Ausgabe: 3., expanded ed

Ausgabe: Online-Ausg. 2006 Springer eBook Collection. Chemistry and Materials Science Electronic reproduction; Available via World Wide Web

ISBN: 9783540300311

Anmerkung: Electronic reproduction; Available via World Wide Web

Weitere Ausg.: ISBN 9783540300304

Weitere Ausg.: Erscheint auch als Druck-Ausgabe Li, Jie Jack, 1964 - Name reactions Berlin : Springer, 2006 ISBN 3540300309

Weitere Ausg.: ISBN 9783540300304

Sprache: Englisch

Fachgebiete: Chemie/Pharmazie

Schlagwort(e): Namensreaktion ; Reaktionsmechanismus ; Wörterbuch

DOI: 10.1007/3-540-30031-7

URL: Volltext

URL: Volltext  (lizenzpflichtig)

URL: Inhaltsverzeichnis

URL: Inhaltstext

Mehr zum Autor: Li, Jie Jack 1964-

UID:

Umfang: XX, 652 Seiten , graph. Darst. , 24 cm

Ausgabe: 3., expanded ed.

ISBN: 9783540300304 , 3540300309

Anmerkung: Literaturangaben , Text engl.

Sprache: Englisch

Schlagwort(e): Namensreaktion ; Reaktionsmechanismus ; Wörterbuch ; Wörterbuch ; Wörterbuch

UID:

Umfang: XX, 652 S. , Ill., graph. Darst. , 235 mm x 155 mm

Ausgabe: 3., expanded ed.

ISBN: 9783540300304 , 3540300309

Sprache: Englisch

Fachgebiete: Chemie/Pharmazie

Schlagwort(e): Organische Chemie ; Namensreaktion ; Reaktionsmechanismus ; Namensreaktion ; Reaktionsmechanismus ; Wörterbuch

URL: Inhaltstext

URL: Inhaltsverzeichnis

Mehr zum Autor: Li, Jie Jack 1964-

UID:

Umfang: 1 online resource (669 p.)

Ausgabe: 3rd ed. 2006.

ISBN: 3-540-30030-9 , 3-540-30031-7

Inhalt: The third edition contains major improvements over the previous edition. In addition to updated references, each reaction is now supplemented with two to three representative examples in synthesis to showcase its synthetic utility. Biographical sketches for the chemists who discovered or developed those name reactions have been included. Furthemore, the subject index is significantly expanded. Different from other books on name reactions in organic chemistry, Name Reactions, A Collection of Detailed Reaction Mechanisms focuses on their mechanisms. It covers over 300 classical as well as contemporary name reactions. Each reaction is delineated by its detailed step-by-step, electron-pushing mechanism, supplemented with the original and the latest references, especially review articles. Thus, it is not only an indispensable resource for senior undergraduate and graduate students for learning and exams, but also a good reference book for all chemists interested in name reactions. Some praise for the previous edition: "This is an excellent book for arrow pushing and learning organic name reactions as encountered in graduate school . . . Li’s book contains reactions of all mechanistic classes . . . The book is nicely balanced, containing modern-day reactions for assembly of stereocomplex molecules. Reactions such as the Corey-Bakshi-Shibata reduction are analyzed. This book is a good reference text that fills a void that has existed for some time. It is both an excellent tool for learning and a good reference source." JOURNAL OF CHEMICAL EDUCATION.

Anmerkung: Description based upon print version of record. , Alder ene reaction -- Aldol condensation -- Algar-Flynn-Oyamada Reaction -- Allan-Robinson reaction -- Appel reaction -- Arndt-Eistert homologation -- Baeyer-Villiger oxidation -- Baker-Venkataraman rearrangement -- Bamberger rearrangement -- Bamford-Stevens reaction -- Barbier coupling reaction -- Bargellini reaction -- Bartoli indole synthesis -- Barton radical decarboxylation -- Barton-McCombie deoxygenation -- Barton nitrite photolysis -- Barton-Zard reaction -- Batcho-Leimgruber indole synthesis -- Baylis-Hillman reaction -- Beckmann rearrangement -- Beirut reaction -- Benzilic acid rearrangement -- Benzoin condensation -- Bergman cyclization -- Biginelli pyrimidone synthesis -- Birch reduction -- Bischler-Möhlau indole synthesis -- Bischler-Napieralski reaction -- Blaise reaction -- Blanc chloromethylation -- Blum aziridine synthesis -- Boekelheide reaction -- Boger pyridine synthesis -- Borch reductive amination -- Borsche-Drechsel cyclization -- Boulton-Katritzky rearrangement -- Bouveault aldehyde synthesis -- Bouveault-Blanc reduction -- Boyland-Sims oxidation -- Bradsher reaction -- Brook rearrangement -- Brown hydroboration -- Bucherer carbazole synthesis -- Bucherer reaction -- Bucherer-Bergs reaction -- Büchner-Curtius-Schlotterbeck reaction -- Büchner method of ring expansion -- Buchwald-Hartwig C-N and C-O bond formation reactions -- Burgess dehydrating reagent -- Cadiot-Chodkiewicz coupling -- Camps quinolinol synthesis -- Cannizzaro disproportionation -- Carroll rearrangement -- Castro-Stephens coupling -- Chan alkyne reduction -- Chan-Lam coupling reaction -- Chapman rearrangement -- Chichibabin pyridine synthesis -- Chugaev elimination -- Ciamician-Dennsted rearrangement -- Claisen condensation -- Claisen isoxazole synthesis -- Claisen rearrangements -- Clemmensen reduction -- Combes quinoline synthesis -- Conrad-Limpach reaction -- Cope elimination reaction -- Cope rearrangement -- Corey-Bakshi-Shibata (CBS) reduction -- Corey-Chaykovsky reaction -- Corey-Fuchs reaction -- Corey-Kim oxidation -- Corey-Nicolaou macrolactonization -- Corey-Seebach reaction -- Corey-Winter olefin synthesis -- Criegee glycol cleavage -- Criegee mechanism of ozonolysis -- Curtius rearrangement -- Dakin oxidation -- Dakin-West reaction -- Danheiser annulation -- Darzens glycidic ester condensation -- Davis chiral oxaziridine reagents -- Delépine amine synthesis -- de Mayo reaction -- Demjanov rearrangement -- Dess-Martin periodinane oxidation -- Dieckmann condensation -- Diels-Alder reaction -- Dienone-phenol rearrangement -- Di-?-methane rearrangement -- Doebner quinoline synthesis -- Dötz reaction -- Dowd-Beckwith ring expansion -- Erlenmeyer-Plöchl azlactone synthesis -- Eschenmoser-Tanabe fragmentation -- Eschweiler-Clarke reductive alkylation of amines -- Evans aldol reaction -- Favorskii rearrangement and quasi-Favorskii rearrangement -- Feist-Bénary furan synthesis -- Ferrier carbocyclization -- Ferrier glycal allylic rearrangement -- Fiesselmann thiophene synthesis -- Fischer indole synthesis -- Fischer oxazole synthesis -- Fleming-Kumada oxidation -- Friedel-Crafts reaction -- Friedländer quinoline synthesis -- Fries rearrangement -- Fukuyama amine synthesis -- Fukuyama reduction -- Gabriel synthesis -- Gabriel-Colman rearrangement -- Gassman indole synthesis -- Gattermann-Koch reaction -- Gewald aminothiophene synthesis -- Glaser coupling -- Gomberg-Bachmann reaction -- Gould-Jacobs reaction -- Grignard reaction -- Grob fragmentation -- Guareschi-Thorpe condensation -- Hajos-Wiechert reaction -- Haller-Bauer reaction -- Hantzsch dihydropyridine synthesis -- Hantzsch pyrrole synthesis -- Heck reaction -- Hegedus indole synthesis -- Hell-Volhard-Zelinsky reaction -- Henry nitroaldol reaction -- Hinsberg synthesis of thiophene derivatives -- Hiyama cross-coupling reaction -- Hofmann rearrangement -- Hofmann-Löffler-Freytag reaction -- Horner-Wadsworth-Emmons reaction -- Houben-Hoesch reaction -- Hunsdiecker-Borodin reaction -- Hurd-Mori 1,2,3-thiadiazole synthesis -- Jacobsen-Katsuki epoxidation -- Japp-Klingemann hydrazone synthesis -- Jones oxidation -- Julia-Kocienski olefination -- Julia-Lythgoe olefination -- Kahne-Crich glycosidation -- Keck macrolactonization -- Knoevenagel condensation -- Knorr pyrazole synthesis -- Koch-Haaf carbonylation -- Koenig-Knorr glycosidation -- Kolbe-Schmitt reaction -- Kostanecki reaction -- Kröhnke pyridine synthesis -- Kumada cross-coupling reaction -- Lawesson’s reagent -- Leuckart-Wallach reaction -- Lossen rearrangement -- McFadyen-Stevens reduction -- McMurry coupling -- MacMillan catalyst -- Mannich reaction -- Marshall boronate fragmentation -- Martin’s sulfurane dehydrating reagent -- Masamune-Roush conditions -- Meerwein-Ponndorf-Verley reduction -- Meisenheimer complex -- [1,2]-Meisenheimer rearrangement -- [2,3]-Meisenheimer rearrangement -- Meth-Cohn quinoline synthesis -- Meyers oxazoline method -- Meyer-Schuster rearrangement -- Michael addition -- Michaelis-Arbuzov phosphonate synthesis -- Midland reduction -- Mislow-Evans rearrangement -- Mitsunobu reaction -- Miyaura borylation -- Moffatt oxidation -- Montgomery coupling -- Morgan-Walls reaction -- Mori-Ban indole synthesis -- Mukaiyama aldol reaction -- Mukaiyama Michael addition -- Mukaiyama reagent -- Myers-Saito cyclization -- Nazarov cyclization -- Neber rearrangement -- Nef reaction -- Negishi cross-coupling reaction -- Nenitzescu indole synthesis -- Nicholas reaction -- Nicolaou dehydrogenation -- Nicolaou hydroxy-dithioketal cyclization -- Nicolaou hydroxy-ketone reductive cyclic ether formation -- Nicolaou oxyselenation -- Noyori asymmetric hydrogenation -- Nozaki-Hiyama-Kishi reaction -- Oppenauer oxidation -- Overman rearrangement -- Paal thiophene synthesis -- Paal-Knorr furan synthesis -- Parham cyclization -- Passerini reaction -- Paternó-Büchi reaction -- Pauson-Khand cyclopentenone synthesis -- Payne rearrangement -- Pechmann coumarin synthesis -- Perkin reaction -- Petasis reaction -- Peterson olefination -- Pictet-Gams isoquinoline synthesis -- Pictet-Spengler tetrahydroisoquinoline synthesis -- Pinacol rearrangement -- Pinner reaction -- Polonovski reaction -- Polonovski-Potier reaction -- Pomeranz-Fritsch reaction -- Prévost trans-dihydroxylation -- Prins reaction -- Pschorr cyclization -- Pummerer rearrangement -- Ramberg-Bäcklund reaction -- Reformatsky reaction -- Regitz diazo synthesis -- Reimer-Tiemann reaction -- Reissert aldehyde synthesis -- Reissert indole synthesis -- Ring-closing metathesis (RCM) -- Ritter reaction -- Robinson annulation -- Robinson-Gabriel synthesis -- Robinson-Schöpf reaction -- Rosenmund reduction -- Rubottom oxidation -- Rupe rearrangement -- Saegusa oxidation -- Sakurai allylation reaction -- Sandmeyer reaction -- Schiemann reaction -- Schmidt reaction -- Schmidt’s trichloroacetimidate glycosidation reaction -- Shapiro reaction -- Sharpless asymmetric amino hydroxylation -- Sharpless asymmetric epoxidation -- Sharpless asymmetric dihydroxylation -- Sharpless olefin synthesis -- Simmons-Smith reaction -- Skraup quinoline synthesis -- Smiles rearrangement -- Sommelet reaction -- Sommelet-Hauser rearrangement -- Sonogashira reaction -- Staudinger ketene cycloaddition -- Staudinger reduction -- Sternbach benzodiazepine synthesis -- Stetter reaction -- Still-Gennari phosphonate reaction -- Stille coupling -- Stille-Kelly reaction -- Stobbe condensation -- Stork enamine reaction -- Strecker amino acid synthesis -- Suzuki coupling -- Swern oxidation -- Takai iodoalkene synthesis -- Tebbe olefination -- TEMPO-mediated oxidation -- Thorpe-Ziegler reaction -- Tsuji-Trost reaction -- Ugi reaction -- Ullmann reaction -- van Leusen oxazole synthesis -- Vilsmeier-Haack reaction -- Vilsmeier mechanism for acid chloride formation -- Vinylcyclopropane-cyclopentene rearrangement -- von Braun reaction -- Wacker oxidation -- Wagner-Meerwein rearrangement -- Weiss-Cook reaction -- Wharton oxygen transposition , English

Weitere Ausg.: Printed edition: ISBN 9783540300304

Sprache: Englisch

DOI: 10.1007/3-540-30031-7

UID:

Umfang: 1 online resource (669 p.)

Ausgabe: 3rd ed. 2006.

ISBN: 3-540-30030-9 , 3-540-30031-7

Inhalt: The third edition contains major improvements over the previous edition. In addition to updated references, each reaction is now supplemented with two to three representative examples in synthesis to showcase its synthetic utility. Biographical sketches for the chemists who discovered or developed those name reactions have been included. Furthemore, the subject index is significantly expanded. Different from other books on name reactions in organic chemistry, Name Reactions, A Collection of Detailed Reaction Mechanisms focuses on their mechanisms. It covers over 300 classical as well as contemporary name reactions. Each reaction is delineated by its detailed step-by-step, electron-pushing mechanism, supplemented with the original and the latest references, especially review articles. Thus, it is not only an indispensable resource for senior undergraduate and graduate students for learning and exams, but also a good reference book for all chemists interested in name reactions. Some praise for the previous edition: "This is an excellent book for arrow pushing and learning organic name reactions as encountered in graduate school . . . Li’s book contains reactions of all mechanistic classes . . . The book is nicely balanced, containing modern-day reactions for assembly of stereocomplex molecules. Reactions such as the Corey-Bakshi-Shibata reduction are analyzed. This book is a good reference text that fills a void that has existed for some time. It is both an excellent tool for learning and a good reference source." JOURNAL OF CHEMICAL EDUCATION.

Anmerkung: Description based upon print version of record. , Alder ene reaction -- Aldol condensation -- Algar-Flynn-Oyamada Reaction -- Allan-Robinson reaction -- Appel reaction -- Arndt-Eistert homologation -- Baeyer-Villiger oxidation -- Baker-Venkataraman rearrangement -- Bamberger rearrangement -- Bamford-Stevens reaction -- Barbier coupling reaction -- Bargellini reaction -- Bartoli indole synthesis -- Barton radical decarboxylation -- Barton-McCombie deoxygenation -- Barton nitrite photolysis -- Barton-Zard reaction -- Batcho-Leimgruber indole synthesis -- Baylis-Hillman reaction -- Beckmann rearrangement -- Beirut reaction -- Benzilic acid rearrangement -- Benzoin condensation -- Bergman cyclization -- Biginelli pyrimidone synthesis -- Birch reduction -- Bischler-Möhlau indole synthesis -- Bischler-Napieralski reaction -- Blaise reaction -- Blanc chloromethylation -- Blum aziridine synthesis -- Boekelheide reaction -- Boger pyridine synthesis -- Borch reductive amination -- Borsche-Drechsel cyclization -- Boulton-Katritzky rearrangement -- Bouveault aldehyde synthesis -- Bouveault-Blanc reduction -- Boyland-Sims oxidation -- Bradsher reaction -- Brook rearrangement -- Brown hydroboration -- Bucherer carbazole synthesis -- Bucherer reaction -- Bucherer-Bergs reaction -- Büchner-Curtius-Schlotterbeck reaction -- Büchner method of ring expansion -- Buchwald-Hartwig C-N and C-O bond formation reactions -- Burgess dehydrating reagent -- Cadiot-Chodkiewicz coupling -- Camps quinolinol synthesis -- Cannizzaro disproportionation -- Carroll rearrangement -- Castro-Stephens coupling -- Chan alkyne reduction -- Chan-Lam coupling reaction -- Chapman rearrangement -- Chichibabin pyridine synthesis -- Chugaev elimination -- Ciamician-Dennsted rearrangement -- Claisen condensation -- Claisen isoxazole synthesis -- Claisen rearrangements -- Clemmensen reduction -- Combes quinoline synthesis -- Conrad-Limpach reaction -- Cope elimination reaction -- Cope rearrangement -- Corey-Bakshi-Shibata (CBS) reduction -- Corey-Chaykovsky reaction -- Corey-Fuchs reaction -- Corey-Kim oxidation -- Corey-Nicolaou macrolactonization -- Corey-Seebach reaction -- Corey-Winter olefin synthesis -- Criegee glycol cleavage -- Criegee mechanism of ozonolysis -- Curtius rearrangement -- Dakin oxidation -- Dakin-West reaction -- Danheiser annulation -- Darzens glycidic ester condensation -- Davis chiral oxaziridine reagents -- Delépine amine synthesis -- de Mayo reaction -- Demjanov rearrangement -- Dess-Martin periodinane oxidation -- Dieckmann condensation -- Diels-Alder reaction -- Dienone-phenol rearrangement -- Di-?-methane rearrangement -- Doebner quinoline synthesis -- Dötz reaction -- Dowd-Beckwith ring expansion -- Erlenmeyer-Plöchl azlactone synthesis -- Eschenmoser-Tanabe fragmentation -- Eschweiler-Clarke reductive alkylation of amines -- Evans aldol reaction -- Favorskii rearrangement and quasi-Favorskii rearrangement -- Feist-Bénary furan synthesis -- Ferrier carbocyclization -- Ferrier glycal allylic rearrangement -- Fiesselmann thiophene synthesis -- Fischer indole synthesis -- Fischer oxazole synthesis -- Fleming-Kumada oxidation -- Friedel-Crafts reaction -- Friedländer quinoline synthesis -- Fries rearrangement -- Fukuyama amine synthesis -- Fukuyama reduction -- Gabriel synthesis -- Gabriel-Colman rearrangement -- Gassman indole synthesis -- Gattermann-Koch reaction -- Gewald aminothiophene synthesis -- Glaser coupling -- Gomberg-Bachmann reaction -- Gould-Jacobs reaction -- Grignard reaction -- Grob fragmentation -- Guareschi-Thorpe condensation -- Hajos-Wiechert reaction -- Haller-Bauer reaction -- Hantzsch dihydropyridine synthesis -- Hantzsch pyrrole synthesis -- Heck reaction -- Hegedus indole synthesis -- Hell-Volhard-Zelinsky reaction -- Henry nitroaldol reaction -- Hinsberg synthesis of thiophene derivatives -- Hiyama cross-coupling reaction -- Hofmann rearrangement -- Hofmann-Löffler-Freytag reaction -- Horner-Wadsworth-Emmons reaction -- Houben-Hoesch reaction -- Hunsdiecker-Borodin reaction -- Hurd-Mori 1,2,3-thiadiazole synthesis -- Jacobsen-Katsuki epoxidation -- Japp-Klingemann hydrazone synthesis -- Jones oxidation -- Julia-Kocienski olefination -- Julia-Lythgoe olefination -- Kahne-Crich glycosidation -- Keck macrolactonization -- Knoevenagel condensation -- Knorr pyrazole synthesis -- Koch-Haaf carbonylation -- Koenig-Knorr glycosidation -- Kolbe-Schmitt reaction -- Kostanecki reaction -- Kröhnke pyridine synthesis -- Kumada cross-coupling reaction -- Lawesson’s reagent -- Leuckart-Wallach reaction -- Lossen rearrangement -- McFadyen-Stevens reduction -- McMurry coupling -- MacMillan catalyst -- Mannich reaction -- Marshall boronate fragmentation -- Martin’s sulfurane dehydrating reagent -- Masamune-Roush conditions -- Meerwein-Ponndorf-Verley reduction -- Meisenheimer complex -- [1,2]-Meisenheimer rearrangement -- [2,3]-Meisenheimer rearrangement -- Meth-Cohn quinoline synthesis -- Meyers oxazoline method -- Meyer-Schuster rearrangement -- Michael addition -- Michaelis-Arbuzov phosphonate synthesis -- Midland reduction -- Mislow-Evans rearrangement -- Mitsunobu reaction -- Miyaura borylation -- Moffatt oxidation -- Montgomery coupling -- Morgan-Walls reaction -- Mori-Ban indole synthesis -- Mukaiyama aldol reaction -- Mukaiyama Michael addition -- Mukaiyama reagent -- Myers-Saito cyclization -- Nazarov cyclization -- Neber rearrangement -- Nef reaction -- Negishi cross-coupling reaction -- Nenitzescu indole synthesis -- Nicholas reaction -- Nicolaou dehydrogenation -- Nicolaou hydroxy-dithioketal cyclization -- Nicolaou hydroxy-ketone reductive cyclic ether formation -- Nicolaou oxyselenation -- Noyori asymmetric hydrogenation -- Nozaki-Hiyama-Kishi reaction -- Oppenauer oxidation -- Overman rearrangement -- Paal thiophene synthesis -- Paal-Knorr furan synthesis -- Parham cyclization -- Passerini reaction -- Paternó-Büchi reaction -- Pauson-Khand cyclopentenone synthesis -- Payne rearrangement -- Pechmann coumarin synthesis -- Perkin reaction -- Petasis reaction -- Peterson olefination -- Pictet-Gams isoquinoline synthesis -- Pictet-Spengler tetrahydroisoquinoline synthesis -- Pinacol rearrangement -- Pinner reaction -- Polonovski reaction -- Polonovski-Potier reaction -- Pomeranz-Fritsch reaction -- Prévost trans-dihydroxylation -- Prins reaction -- Pschorr cyclization -- Pummerer rearrangement -- Ramberg-Bäcklund reaction -- Reformatsky reaction -- Regitz diazo synthesis -- Reimer-Tiemann reaction -- Reissert aldehyde synthesis -- Reissert indole synthesis -- Ring-closing metathesis (RCM) -- Ritter reaction -- Robinson annulation -- Robinson-Gabriel synthesis -- Robinson-Schöpf reaction -- Rosenmund reduction -- Rubottom oxidation -- Rupe rearrangement -- Saegusa oxidation -- Sakurai allylation reaction -- Sandmeyer reaction -- Schiemann reaction -- Schmidt reaction -- Schmidt’s trichloroacetimidate glycosidation reaction -- Shapiro reaction -- Sharpless asymmetric amino hydroxylation -- Sharpless asymmetric epoxidation -- Sharpless asymmetric dihydroxylation -- Sharpless olefin synthesis -- Simmons-Smith reaction -- Skraup quinoline synthesis -- Smiles rearrangement -- Sommelet reaction -- Sommelet-Hauser rearrangement -- Sonogashira reaction -- Staudinger ketene cycloaddition -- Staudinger reduction -- Sternbach benzodiazepine synthesis -- Stetter reaction -- Still-Gennari phosphonate reaction -- Stille coupling -- Stille-Kelly reaction -- Stobbe condensation -- Stork enamine reaction -- Strecker amino acid synthesis -- Suzuki coupling -- Swern oxidation -- Takai iodoalkene synthesis -- Tebbe olefination -- TEMPO-mediated oxidation -- Thorpe-Ziegler reaction -- Tsuji-Trost reaction -- Ugi reaction -- Ullmann reaction -- van Leusen oxazole synthesis -- Vilsmeier-Haack reaction -- Vilsmeier mechanism for acid chloride formation -- Vinylcyclopropane-cyclopentene rearrangement -- von Braun reaction -- Wacker oxidation -- Wagner-Meerwein rearrangement -- Weiss-Cook reaction -- Wharton oxygen transposition , English

Weitere Ausg.: Printed edition: ISBN 9783540300304

Sprache: Englisch

DOI: 10.1007/3-540-30031-7