Xia Zeming, Pun Sai Ho, Chen Han, Miao Qian
Department of Chemistry, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, Hong Kong.
Angew Chem Int Ed Engl. 2021 Apr 26;60(18):10311-10318. doi: 10.1002/anie.202100343. Epub 2021 Mar 17.
Zigzag carbon nanobelts are a long-sought-after target for organic synthesis. Herein we report new strategies for designing and synthesizing unprecedented zigzag carbon nanobelts, which present a wave-like arrangement of hexagons in the unrolled lattice of (n,0) single wall carbon nanotubes (n=16 or 24). The precursors of these zigzag carbon nanobelts are hybrid cyclic arylene oligomers consisting of meta-phenylene and 2,6-naphthalenylene as well as para-phenylene units. The Scholl reactions of these cyclic arylene oligomers form multiple carbon-carbon bonds selectively at the α-positions of naphthalene units resulting in the corresponding zigzag carbon nanobelts. As monitored with fluorescence spectroscopy, one of these nanobelts binds C with an association constant as high as (6.6±1.1)×10 M in the solution in toluene. Computational studies combining linear regression analysis and hypothetical homodesmotic reactions reveal that these zigzag nanobelts have strain in the range of 67.5 to 69.6 kcal mol , and the ladderization step through Scholl reactions is accompanied by increase of strain as large as 69.6 kcal mol . The successful synthesis of these nanobelts demonstrates the powerfulness and efficiency of Scholl reactions in synthesizing strained polycyclic aromatics.
锯齿形碳纳米带是有机合成中长期以来备受追捧的目标。在此,我们报告了设计和合成前所未有的锯齿形碳纳米带的新策略,这些碳纳米带在(n,0)单壁碳纳米管(n = 16或24)的展开晶格中呈现出六边形的波浪状排列。这些锯齿形碳纳米带的前体是由间亚苯基、2,6-萘撑以及对亚苯基单元组成的混合环状亚芳基低聚物。这些环状亚芳基低聚物的肖尔反应在萘单元的α位选择性地形成多个碳-碳键,从而得到相应的锯齿形碳纳米带。通过荧光光谱监测发现,其中一种纳米带在甲苯溶液中与C的结合常数高达(6.6±1.1)×10 M。结合线性回归分析和假设的同系化反应的计算研究表明,这些锯齿形纳米带的应变在67.5至69.6 kcal mol范围内,并且通过肖尔反应的阶梯化步骤伴随着高达69.6 kcal mol的应变增加。这些纳米带的成功合成证明了肖尔反应在合成应变多环芳烃方面的强大能力和效率。
