kw.\*:("Réaction dyotrope")
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AZA-WITTIG REARRANGEMENT OF (9-LITHIO-9-FLUORENYL)-ALLYL-METHYL-AMINEREETZ MT; SCHINZER D.1975; TETRAHEDRON LETTERS; G.B.; DA. 1975; NO 40; PP. 3485-3486; BIBL. 5 REF.Article
Dyotrope Wasserstoffverschiebung in Pentacyclo[7.6.0.02,13.03,8.010,14]pentadeca-4,6,11-trien = Déplacement dyotrope d'hydrogène dans le pentacyclo [7.6.0.02,13.03,8.010,14] pentadécatriène-4,6,11 = Dyotropic hydrogen migration in pentacyclo [7.6.0.02,13.03,8.010,14] pentadeca-4,6,11-trieneCHOW, T. J; MEI-FANG DING.Angewandte Chemie. 1986, Vol 98, Num 12, pp 1102-1104, issn 0044-8249Article
Gas-phase dyotropic rearrangements of (chloromethyl)dimethylsilaneMARTIN, J. G; RING, M. A; O'NEAL, H. E et al.Organometallics. 1986, Vol 5, Num 6, pp 1228-1230, issn 0276-7333Article
THERMAL REARRANGEMENT OF CAGE LACTONES AND RELATED COMPOUNDS DYOTROPIC REARRANGEMENT OF CAGE COMPOUNDSSATO K; YAMASHITA Y; MUKAI T et al.1981; TETRAHEDRON LETT.; ISSN 0040-4039; GBR; DA. 1981; VOL. 22; NO 52; PP. 5303-5306; BIBL. 14 REF.Article
MASSENSPECTROMETRISCHE UNTERSUCHUNGEN ZU DYOTROPEN UMLAGERUNGEN. = ETUDE EN SPECTROMETRIE DE MASSE DES TRANSPOSITIONS DYOTROPESSCHWARZ H; KLIMENT M; REETZ MT et al.1976; ORG. MASS SPECTROM.; G.B.; DA. 1976; VOL. 11; NO 9; PP. 989-994; ABS. ANGL.; BIBL. 15 REF.Article
DYOTROPE UMLAGERUNGEN. X. SYNTHESE UND THERMISCHE UMLAGERUNG VON ALLYL-(SILYLMETHYL)-ETHERN. = TRANSPOSITIONS DYOTROPES. X. SYNTHESE ET TRANSPOSITION THERMIQUE DES ALLYL SILYLMETHYL ETHERSREETZ MT.1977; CHEM. BER.; DTSCH.; DA. 1977; VOL. 110; NO 3; PP. 954-964; ABS. ANGL.; BIBL. 24 REF.Article
DYOTROPE UMLAGERUNGEN. XI. MECHANISMUS DER THERMISCHEN UMLAGERUNG VON ALLYL-(SILYLMETHYL)-ETHERN. = TRANSPOSITION DYOTROPE. XI. MECANISME DE LA TRANSPOSITION THERMIQUE DES ALLYL SILYLMETHYL ETHERSREETZ MT.1977; CHEM. BER.; DTSCH.; DA. 1977; VOL. 110; NO 3; PP. 965-978; ABS. ANGL.; BIBL. 37 REF.Article
REARRANGEMENT OF ORGANOSILYL GROUPS BETWEEN OXYGEN AND NITROGEN IN TRIS(ORGANOSILYL) HYDROXYLAMINES: A POSSIBLE DYOTROPIC REARRANGEMENT.NOWAKOWSKI P; WEST R.1976; J. AMER. CHEM. SOC.; U.S.A.; DA. 1976; VOL. 98; NO 18; PP. 5616-5620; BIBL. 16 REF.Article
Mechanism of cis-enamide formation from N-(α-silyl)allyl amides: Synthetic potential of stepwise dyotropic rearrangementsXIYUN ZHANG; HOUK, K. N; SONGNIAN LIN et al.Journal of the American Chemical Society. 2003, Vol 125, Num 17, pp 5111-5114, issn 0002-7863, 4 p.Article
Improved, stereospecific synthesis of highly substituted butyrolactones via dyotropic rearrangementBLACK, T. H; HALL, J. A; SHEU, R. G et al.Journal of organic chemistry. 1988, Vol 53, Num 10, pp 2371-2374, issn 0022-3263Article
MASSENSPEKTROMETRISCHE UNTERSUCHUNGEN ZU DYOTROPEN UMLAGERUNGEN. III: ETHER-SPALTUNGEN, SILYLEN- UND CARBEN-ELIMINIERUNG DURCH ANCHIMERE EFFEKTE VON SILYLGRUPPEN BEI ZERFAELLEN IONISIERTER ALKYL-(SILYLMETHYL)-ETHER = ETUDE PAR SPECTROMETRIE DE MASSE DES REACTIONS DIOTROPES. III. SCISSION DES ETHERS, ELIMINATION DE CARBENES ET DE SILYLENES PAR EFFET AUCHIMERE DES GROUPES SILYLES AU COURS DE LA DECOMPOSITION D'ALKYL (SILYLMETHYL) ETHERS IONISESSCHWARZ H; WESDEMIOTIS C; REETZ MT et al.1978; J. ORGANOMETAL. CHEM.; CHE; DA. 1978; VOL. 161; NO 2; PP. 153-164; ABS. ENG; BIBL. 17 REF.Article