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W2907179438 endingPage "1478" @default.
W2907179438 startingPage "1461" @default.
W2907179438 abstract "The substitution reaction of the diethyl allylic and propargylic phosphates with Ar 2 CH anions was applied to sec ‐alkyl phosphates to compare reactivity and stereoselectivity. However, the substitution took place on the ethyl carbon of the diethyl phosphate group. We then found that the diphenyl phosphate leaving group ((PhO) 2 PO 2 ) was suited for the substitution at the sec ‐alkyl carbon. Enantioenriched diphenyl sec ‐alkyl phosphates with different substituents (Me, Et, i Pr) on the vicinal position underwent the substitution reaction with almost complete inversion (>99% enantiospecificity). The substitution reactions of cyclohexyl phosphates possessing cis or trans substituents (Me and/or t Bu) at the C4, C3, and C2 positions of the cyclohexane ring were also studied to observe the difference in reactivity among the cis and trans isomers. A transition‐state model with the phosphate leaving group ((PhO) 2 PO 2 ) in the axial position was proposed to explain the difference. This model was supported by computational calculation of the virtual substitution reaction of the structurally simpler “dimethyl” cyclohexyl phosphates (leaving group = (MeO) 2 PO 2 ) with MeLi. Furthermore, the calculation unexpectedly indicated higher propensity of (PhO) 2 PO 2 as a leaving reactivity than alkyl phosphate groups such as (MeO) 2 PO 2 and ( i PrO) 2 PO 2 ." @default.
W2907179438 created "2019-01-11" @default.
W2907179438 creator A5032131372 @default.
W2907179438 creator A5050546587 @default.
W2907179438 creator A5054159540 @default.
W2907179438 creator A5058935668 @default.
W2907179438 creator A5065260238 @default.
W2907179438 creator A5075010458 @default.
W2907179438 creator A5090785823 @default.
W2907179438 date "2019-01-17" @default.
W2907179438 modified "2023-10-16" @default.
W2907179438 title "S<sub>N</sub> 2 Reaction of Diarylmethyl Anions at Secondary Alkyl and Cycloalkyl Carbons" @default.
W2907179438 cites W1670097245 @default.
W2907179438 cites W1859025380 @default.
W2907179438 cites W1965273103 @default.
W2907179438 cites W1965743893 @default.
W2907179438 cites W1966047870 @default.
W2907179438 cites W1971035670 @default.
W2907179438 cites W1974464862 @default.
W2907179438 cites W1977637153 @default.
W2907179438 cites W1978965340 @default.
W2907179438 cites W1979422203 @default.
W2907179438 cites W1979476097 @default.
W2907179438 cites W1982881681 @default.
W2907179438 cites W1983284520 @default.
W2907179438 cites W1983772739 @default.
W2907179438 cites W1984323351 @default.
W2907179438 cites W1987639290 @default.
W2907179438 cites W1988634930 @default.
W2907179438 cites W1998761932 @default.
W2907179438 cites W2003035408 @default.
W2907179438 cites W2003404062 @default.
W2907179438 cites W2003767573 @default.
W2907179438 cites W2003806837 @default.
W2907179438 cites W2006931398 @default.
W2907179438 cites W2007271897 @default.
W2907179438 cites W2007448187 @default.
W2907179438 cites W2010791198 @default.
W2907179438 cites W2017071469 @default.
W2907179438 cites W2020168887 @default.
W2907179438 cites W2024793074 @default.
W2907179438 cites W2025741640 @default.
W2907179438 cites W2027521157 @default.
W2907179438 cites W2029491924 @default.
W2907179438 cites W2031154286 @default.
W2907179438 cites W2031646878 @default.
W2907179438 cites W2033271992 @default.
W2907179438 cites W2034063945 @default.
W2907179438 cites W2034182105 @default.
W2907179438 cites W2034530507 @default.
W2907179438 cites W2035377065 @default.
W2907179438 cites W2036779865 @default.
W2907179438 cites W2038398209 @default.
W2907179438 cites W2038665802 @default.
W2907179438 cites W2039520556 @default.
W2907179438 cites W2041742813 @default.
W2907179438 cites W2042218724 @default.
W2907179438 cites W2047490873 @default.
W2907179438 cites W2047496287 @default.
W2907179438 cites W2048631643 @default.
W2907179438 cites W2050303728 @default.
W2907179438 cites W2053148541 @default.
W2907179438 cites W2056092715 @default.
W2907179438 cites W2060783249 @default.
W2907179438 cites W2061435521 @default.
W2907179438 cites W2063054373 @default.
W2907179438 cites W2063664415 @default.
W2907179438 cites W2064171670 @default.
W2907179438 cites W2064430566 @default.
W2907179438 cites W2071690550 @default.
W2907179438 cites W2072603329 @default.
W2907179438 cites W2074285250 @default.
W2907179438 cites W2076242932 @default.
W2907179438 cites W2082666581 @default.
W2907179438 cites W2084563516 @default.
W2907179438 cites W2093210090 @default.
W2907179438 cites W2094149746 @default.
W2907179438 cites W2094216461 @default.
W2907179438 cites W2097820454 @default.
W2907179438 cites W2100408745 @default.
W2907179438 cites W2111741771 @default.
W2907179438 cites W2112780919 @default.
W2907179438 cites W2117902186 @default.
W2907179438 cites W2121269830 @default.
W2907179438 cites W2121817832 @default.
W2907179438 cites W2125250513 @default.
W2907179438 cites W2129454213 @default.
W2907179438 cites W2130182464 @default.
W2907179438 cites W2135025323 @default.
W2907179438 cites W2138023898 @default.
W2907179438 cites W2140072993 @default.
W2907179438 cites W2157642403 @default.
W2907179438 cites W2159206084 @default.
W2907179438 cites W2161899456 @default.
W2907179438 cites W2164180270 @default.
W2907179438 cites W2174200813 @default.
W2907179438 cites W2237804038 @default.
W2907179438 cites W2267483994 @default.