Kawasaki, Tsuneomi Tanaka, Hiroyuki Tsutsumi, Takashi Kasahara, Toshinari Sato, Itaru Soai, Kenso Chiral Discrimination of Cryptochiral Saturated Quaternary and Tertiary Hydrocarbons by Asymmetric Autocatalysis Chiral discrimination of saturated hydrocarbons has been very difficult to establish, or has not been possible at all. The first chiral discrimination of cryptochiral 5-ethyl-5-propylundecane <b>1</b>, that is, (<i>n</i>-butyl)ethyl(<i>n</i>-hexyl)(<i>n</i>-propyl)methane, a chiral saturated quaternary hydrocarbon, which is known to exhibit practically no detectable value of optical rotation between 280 and 580 nm, has been accomplished by asymmetric autocatalysis of pyrimidyl alkanol. The absolute configuration of <b>1</b> has been determined. In the presence of (<i>R</i>)- or (<i>S</i>)-<b>1</b>, the reaction between pyrimidine-5-carbaldehyde and diisopropylzinc affords (<i>S</i>)- and (<i>R</i>)-pyrimidyl alkanol with 91−97% ee, respectively. Thus, asymmetric autocatalysis serves as a powerful tool for the chiral discrimination of saturated hydrocarbons. Asymmetric Autocatalysis Chiral discrimination;hydrocarbon;alkanol;pyrimidyl;chiral discrimination;autocatalysi 2006-05-10
    https://acs.figshare.com/articles/journal_contribution/Chiral_Discrimination_of_Cryptochiral_Saturated_Quaternary_and_Tertiary_Hydrocarbons_by_Asymmetric_Autocatalysis/3223486
10.1021/ja061429e.s001