Institut für Anorganische Chemie, Georg-August-Universität, Tammannstrasse 4, D-37077, Göttingen, Germany.
Chem Commun (Camb). 2012 Feb 21;48(16):2169-79. doi: 10.1039/c2cc17449a. Epub 2012 Jan 12.
The activation of phosphorus remains a popular and competitive area of research driven by the dual goals of finding ways to avoid the environmentally questionable P-Cl compounds applied in many industrial processes and the target of catalytic functionalization of P(4). In recent years the activation, degradation, fragmentation, and functionalization of white phosphorus by compounds with heavier main group elements have become a fertile area of research. The isolation of various carbenes and functionalized silylenes has prompted chemists to investigate their reactions with white phosphorus. The most intriguing fact in these reactions is the subtle change in the substituents may afford strikingly different compounds. For example, from the reaction of P(4) with PhC(NtBu)(2)SiCl a cyclic Si(2)P(2) derivative is obtained, whereas the analogous reaction with PhC(NtBu)(2)SiN(SiMe(3))(2) resulted in an acyclic Si(2)P(4) framework. Similar phenomena have also been observed in the carbene mediated P(4) activation. Apart from these, a new entry point into phosphorus chemistry is the gentle activation of P(4) by an alkyne analogue of tin. In this feature article we have covered the activation of phosphorus by compounds with low valent group 14 elements with special concern to the recent developments in this topic.
磷的活化仍然是一个热门且竞争激烈的研究领域,其双重目标是寻找避免在许多工业过程中应用的环境有问题的 P-Cl 化合物的方法,以及催化官能化 P(4)的目标。近年来,用较重的主族元素化合物对白磷进行活化、降解、碎片化和官能化已成为一个富有成效的研究领域。各种卡宾和官能化硅烯的分离促使化学家研究它们与白磷的反应。这些反应中最有趣的事实是,取代基的细微变化可能会得到截然不同的化合物。例如,从 P(4)与 PhC(NtBu)(2)SiCl 的反应中得到了一个环状 Si(2)P(2)衍生物,而类似的与 PhC(NtBu)(2)SiN(SiMe(3))(2)的反应得到了一个无环 Si(2)P(4)骨架。在卡宾介导的 P(4)活化中也观察到了类似的现象。除此之外,通过锡的炔烃类似物温和地活化 P(4)是进入磷化学的一个新途径。在这篇专题文章中,我们综述了用低价的 14 族元素化合物对磷的活化,特别关注了这一课题的最新进展。
