Fang Guang Y, Wallner Olov A, Di Blasio Nadia, Ginesta Xavier, Harvey Jeremy N, Aggarwal Varinder K
School of Chemistry, University of Bristol, Cantock's Close, Bristol, BS8 1TS, UK.
J Am Chem Soc. 2007 Nov 28;129(47):14632-9. doi: 10.1021/ja074110i. Epub 2007 Nov 7.
The reactions of aryl-stabilized sulfur ylides with organoboranes has been studied under a variety of conditions. At 5 or -78 degrees C, the reaction with Et3B gave a mixture of the first and second homologation products, but at -100 degrees C, only the first homologation product was obtained even with just 1.1 equiv of Et3B. Under these optimized conditions, the chiral sulfur ylides (derived from camphor sulfonic acid) with different aryl groups were reacted with Et3B to give the corresponding alcohols (95-98% yield, 96-98% ee) and amines (74-77% yield, >98% ee). The origin of the high enantioselectivity is discussed. The use of nonsymmetrical 9-BBN derivatives was also explored. It was found that whereas primary alkyl substituents gave mixtures of products derived from competing migration of the boron substituent and the boracycle, all other groups resulted in either exclusive migration of the boron substituent (Ph, hexenyl, i-Pr) or exclusive migration of the boracycle (hexynyl, cyclopropyl). The factors responsible for the outcome of the reactions involving a hindered (i-Pr) and an unhindered (propynyl) substituent were studied by DFT calculations. This revealed that, in the case of an unhindered substituent, the conformation of the ate complex is the dominant factor whereas, in the case of a hindered substituent, the barriers to interconversion between the conformers of the ate complex and subsequent migration control the outcome of the reaction.
在各种条件下研究了芳基稳定的硫叶立德与有机硼烷的反应。在5℃或-78℃下,与三乙基硼反应得到一级和二级同系化产物的混合物,但在-100℃下,即使仅使用1.1当量的三乙基硼,也仅得到一级同系化产物。在这些优化条件下,将具有不同芳基的手性硫叶立德(源自樟脑磺酸)与三乙基硼反应,得到相应的醇(产率95 - 98%,对映体过量96 - 98%)和胺(产率74 - 77%,对映体过量>98%)。讨论了高对映选择性的来源。还探索了非对称9-硼双环壬烷衍生物的使用。发现虽然伯烷基取代基会产生源自硼取代基和硼环竞争迁移的产物混合物,但所有其他基团导致要么硼取代基(苯基、己烯基、异丙基)的专一迁移,要么硼环(己炔基、环丙基)的专一迁移。通过密度泛函理论计算研究了涉及受阻(异丙基)和未受阻(丙炔基)取代基的反应结果的影响因素。结果表明,在未受阻取代基的情况下,酸根络合物的构象是主导因素,而在受阻取代基的情况下,酸根络合物构象之间相互转化的势垒以及随后的迁移控制反应结果。