Department of Chemistry, Center for Nanoscale Science & Engineering, Pierce Hall Annex 203, University of California, Riverside, Riverside, CA 92521-0403, USA.
Chemistry. 2011 Oct 4;17(41):11576-84. doi: 10.1002/chem.201100730. Epub 2011 Aug 31.
We report the synthesis, crystallization, and solid-state characterization of the 3,7-ethoxy-substituted spirobiphenalenyl-boron neutral radical 22. The radical is distinguished by its low disproportionation energy and one-dimensional structure. We show that our strategy of substitution of OEt group at the active positions of the phenalenyl units changes the crystal packing from its previously known OMe analogue and the solid-state properties are dictated by the partial π-stack structure and the oxygen atoms at the 3,7-positions and can be best rationalized in terms of the resonating valence bond model. Magnetic susceptibility measurements show that in the solid state the radical remains paramagnetic but there is significant spin-spin interaction between the molecules. Band structure calculations reflect efficient overlap between the molecules along the π stack and show evidence of interactions between the spin-bearing oxygen atoms. The room temperature electrical conductivity (σ(RT)=2.0×10(-2) S cm(-1)) of 22 is higher than that observed in previously known one-dimensional phenalenyl radicals.
我们报告了 3,7-乙氧基取代螺双苯并菲硼中性自由基 22 的合成、结晶和固态特性。该自由基的特点是其低歧化能和一维结构。我们表明,我们在苯并菲单元的活性位置取代 OEt 基团的策略改变了晶体堆积方式,使其与之前已知的 OMe 类似物不同,固态性质由部分π堆积结构和 3,7 位的氧原子决定,可以用共振价键模型来最好地解释。磁感性测量表明,在固态下自由基仍然是顺磁性的,但分子之间存在显著的自旋-自旋相互作用。能带结构计算反映了分子沿π堆积的有效重叠,并显示了自旋氧原子之间相互作用的证据。室温电导率(σ(RT)=2.0×10(-2)S cm(-1))22 高于以前已知的一维苯并菲自由基。
