基于阴离子配位的四面体笼中的空气和轻稳定的 P 和 As。

Air- and Light-Stable P and As within an Anion-Coordination-Based Tetrahedral Cage.

机构信息

Key Laboratory of Synthetic and Natural Functional Molecule Chemistry of the Ministry of Education, College of Chemistry and Materials Science, Northwest University , Xi'an 710069, China.

School of Materials and Textile Engineering, Jiaxing University , Jiaxing 314001, China.

出版信息

J Am Chem Soc. 2017 Apr 26;139(16):5946-5951. doi: 10.1021/jacs.7b01890. Epub 2017 Apr 5.

DOI:10.1021/jacs.7b01890

PMID:28335592

Abstract

In contrast to the stable dinitrogen molecule, white phosphorus (P) and yellow arsenic (As) are very reactive allotropic modifications of these two heavier pnictogen elements, which has greatly hampered the study of their properties and applications. Thus, the safe storage and transport of them is imperative. Supramolecular caged structures are one of the most efficient approaches for the encapsulation and stabilization of reactive species; however, their use in the P and As chemistry is very rare. In the current work, we demonstrate a new design strategy for constructing finite cages and including guests based on anion coordination chemistry. The phosphate-coordination-based tetrahedral cages can readily accommodate the tetrahedral guests P and As, which is facilitated by the shape and size complementarity as well as favorable σ-π and lone-pair-π interactions. Moreover, the latter case represents the first example of As inclusion in a well-defined tetrahedral cage.

摘要

与稳定的氮气分子相比，白磷（P）和黄砷（As）是这两种较重的磷族元素非常活泼的同素异形体，这极大地阻碍了它们性质和应用的研究。因此，安全储存和运输它们是必要的。超分子笼状结构是封装和稳定活性物质最有效的方法之一；然而，它们在磷和砷化学中的应用非常罕见。在目前的工作中，我们展示了一种基于阴离子配位化学构建有限笼状结构和包含客体的新设计策略。基于磷酸盐配位的四面体笼可以容易地容纳四面体客体 P 和 As，这得益于形状和大小的互补性以及有利的 σ-π 和孤对-π 相互作用。此外，后一种情况代表了首例砷在定义明确的四面体笼中的包含。

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基于阴离子配位的四面体笼中的空气和轻稳定的 P 和 As。

Air- and Light-Stable P and As within an Anion-Coordination-Based Tetrahedral Cage.

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