四硫代硒（化）物取代菲咯啉衍生物的合成：双（3,4,6,7-四硫代烷基菲咯啉基）硼自由基的制备和固态特性。

Synthesis of tetrachalcogenide-substituted phenalenyl derivatives: preparation and solid-state characterization of bis(3,4,6,7-tetrathioalkyl-phenalenyl)boron radicals.

机构信息

Department of Chemistry and Chemical & Environmental Engineering, University of California-Riverside, Riverside, California 92521, United States.

出版信息

J Am Chem Soc. 2013 Sep 4;135(35):12936-9. doi: 10.1021/ja405814f. Epub 2013 Aug 21.

DOI:10.1021/ja405814f

PMID:23957468

Abstract

We report the synthesis and properties of a series of spiro-bis(3,4,6,7-tetrachalcogenide-substituted-phenalenyl)boron salts and two of the corresponding tetrathioalkyl-substituted spiro-bis(phenalenyl)boron radicals [tetrathiomethyl (10) and tetrathioethyl (11)] in which all of the active positions of the phenalenyl (PLY) nucleus are functionalized. In the solid state, radicals 10 and 11 exist as a weak π-dimers due to the steric congestion of the thioalkyl groups in the superimposed PLY units. As a result, the spins are localized in the isolated (nonsuperimposed) PLY rings, and the structure, magnetic susceptibility measurements, and band structure calculations confirm that these PLY units are unable to undergo strong intermolecular interaction as a result of the orientation of the thioalkyl groups.

摘要

我们报告了一系列螺双（3,4,6,7-四硫代亚甲撑-取代-菲咯啉基）硼盐和两个相应的四硫代烷基取代螺双（菲咯啉基）硼自由基[四硫甲基（10）和四硫代乙基（11）]的合成和性质，其中菲咯啉（PLY）核的所有活性位置都被官能化。在固态中，由于硫代烷基在重叠的 PLY 单元中的空间拥挤，自由基 10 和 11 存在于弱的π-二聚体中。结果，自旋被局域在孤立的（非重叠）PLY 环中，结构、磁化率测量和能带结构计算证实，这些 PLY 单元由于硫代烷基的取向而无法进行强的分子间相互作用。

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四硫代硒（化）物取代菲咯啉衍生物的合成：双（3,4,6,7-四硫代烷基菲咯啉基）硼自由基的制备和固态特性。

Synthesis of tetrachalcogenide-substituted phenalenyl derivatives: preparation and solid-state characterization of bis(3,4,6,7-tetrathioalkyl-phenalenyl)boron radicals.

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