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Selective Hydrogen Chloride Elimination from Primary Chlorides Induced by the Fluoride Anion. Anchimeric participation of the chloromethyl group in the heterolytic opening of an epoxide. Stereospecific syntheses of 5,6‐bis (methylidene)‐ syn ‐2‐norbornen‐7‐ol and 5,6‐bis (methylidene)‐ endo ‐3‐chloro‐ exo ‐2‐norbornanol
Author(s) -
Chollet André,
Hagenbuch JeanPierre,
Vogel Pierre
Publication year - 1979
Publication title -
helvetica chimica acta
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.74
H-Index - 82
eISSN - 1522-2675
pISSN - 0018-019X
DOI - 10.1002/hlca.19790620218
Subject(s) - chemistry , heterolysis , fluoride , epoxide , medicinal chemistry , stereospecificity , chlorine , hydrogen chloride , chloride , ether , chlorine atom , ion , elimination reaction , organic chemistry , inorganic chemistry , catalysis
Syntheses of the alcohols 10 and 18 , and the corresponding ketones 11 and 19 are presented. Endo ‐5, exo ‐6‐bis (chloromethyl)‐ endo ‐3‐chloro‐ exo ‐2‐norbornanol ( 16 ) and endo ‐5‐(bromomethyl)‐ exo ‐6‐(chloromethyl)‐ endo ‐3‐chloro‐ exo ‐2‐norbornanol ( 17 ) were obtained by HCl‐ and, respectively, HBr‐addition to endo ‐5, exo ‐6‐bis (chloromethyl)‐ exo ‐2, 3‐epoxynorbornane ( 5 ). The Wagner‐Meerwein rearrangement was precluded in these reactions probably because of the formation of a relatively stable chloronium ion 15 arising from the participation of the 1,4‐chlorine atom of the endo ‐5‐chloromethyl group in the heterolytic ring opening of the epoxide 5 . The ‘naked’ fluoride anion (excess CsF in DMF or KF in DMF with 18‐crown‐6‐ether) permitted the selective elimination of 2 equivalents of HCl from 16 and yielded the chlorohydrin‐diene 18 .