Liu Qian, Miller Glen P
Department of Chemistry, University of New Hampshire 23 Academic Way Durham New Hampshire 03824 USA
RSC Adv. 2024 Aug 9;14(34):25008-25018. doi: 10.1039/d4ra04273e. eCollection 2024 Aug 5.
Here, we report improved syntheses, detailed characterizations and reactions of a series of acene-2,3-dicarbaldehydes including tetracene-2,3-dicarbaldehyde. DFT calculations corroborate and complement the experimental results. Tetracene-2,3-dicarbaldehyde and the benchmark organic semiconductor pentacene have isoelectronic π-systems and similar HOMO-LUMO gaps. Tetracene-2,3-dicarbaldehyde is soluble in a host of organic solvents (, DMF, toluene, THF, chloroform, dichloromethane) and shows excellent photooxidative resistance in solution phases exposed to light and air. Further, it is readily sublimed from the solid-state without decomposition, and can be functionalized using different chemistries. We have demonstrated the utility of acene-2,3-dicarbaldehydes as reactants in the syntheses of novel α,α'-diaryl-2,3-acenedimethanols and acenotropones Grignard reactions and double-aldol condensation reactions, respectively. The acenotropones were further reacted with concentrated HSO to generate hydroxyacenotropylium ions that exhibit long wavelength absorption in the visible and near-IR regions. The optical gap measured for hydroxyanthracenotropylium ion is 1.3 eV. The results gained here implicate acene-2,3-dicarbaldehydes as potential high-value organic semiconductors and as precursors to a host of interesting molecules and materials.
在此,我们报告了一系列包括并四苯-2,3-二甲醛在内的并苯-2,3-二甲醛的改进合成方法、详细表征及反应。密度泛函理论(DFT)计算证实并补充了实验结果。并四苯-2,3-二甲醛与基准有机半导体并五苯具有等电子π体系和相似的最高占据分子轨道-最低未占据分子轨道(HOMO-LUMO)能隙。并四苯-2,3-二甲醛可溶于多种有机溶剂(如N,N-二甲基甲酰胺、甲苯、四氢呋喃、氯仿、二氯甲烷),且在暴露于光和空气的溶液相中表现出优异的抗光氧化性。此外,它易于从固态升华而不分解,并且可以通过不同的化学方法进行官能化。我们分别展示了并苯-2,3-二甲醛作为反应物在新型α,α'-二芳基-2,3-并苯二甲醇和并苯环庚三烯酮的合成中的应用,这两个反应分别为格氏反应和双羟醛缩合反应。并苯环庚三烯酮进一步与浓硫酸反应生成在可见光和近红外区域呈现长波长吸收的羟基并苯环庚三烯鎓离子。测得的羟基蒽环庚三烯鎓离子的光学能隙为1.3电子伏特。此处获得的结果表明并苯-2,3-二甲醛是潜在的高价值有机半导体以及众多有趣分子和材料的前体。
