Synthesis of Pyrene-Anthracene Conjugated Molecular Rods

The Open Organic Chemistry Journal Pub Date : 2009-01-26 DOI:10.2174/1874095200903010011

J. Chávez, S. Ortega, M. Martínez-García

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引用次数: 9

Abstract

Fully conjugated pyrene-anthracene-based molecular rods were synthesized by the Horner-Wadsworth- Emmons reaction utilizing potassium tert-butoxide in dry THF. The synthesized rods, which have butylene groups as solubility spacers in the main chain, exhibited good solubility in polar solvents. The solutions of the synthesized pyrene- containing molecular rods exhibited a blue shift in the UV-vis from the absorption maximum due to the presence of the pyrene group in comparison with the dialdehydes. The chemical structure and purity of the synthesized rods were con- firmed by 1 H and 13 C NMR, FAB+, MALDI-TOF, electrospray mass spectra and elemental analysis. The presence of charge-transfer reaction centers in mac- romolecules depends on factors as the composition, the sepa- ration in the interchromophore, the overall dynamical and supramolecular reorganization, and the electronic coupling (1). The synthesis of artificial charge-transfer model systems in which the introduction of simple molecular changes is used to control and tune the magnitude of the electron- transfer parameters became a theme of great interest in the last years. The molecular chains or bridges inside the mole- cule provide endless opportunities, since they determine the structural features and the size of the electronic coupling between the donor and acceptor fragments (2). The modifica- tion of the spacer gives the possibility to introduce a system- atic alteration of separation, orientation, and overlap without affecting the electronic nature of the donor-acceptor pair, for which the coupling is proportional to the overlap of their electronic clouds (3). The electron-transfer processes depend on molecular size and structure, as well as the temperature and the free-energy difference between the donor and accep- tor in donor-bridge-acceptor systems. Currently, monodis- perse and soluble ￻ -conjugated systems with a well-defined length and composition are receiving a growing interest for the design of molecular wires (4) and rods (5), since they can be used as tunable building blocks (6) for nanoscale chemi-

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芘-蒽共轭分子棒的合成

以叔丁二氧化钾为原料，采用Horner-Wadsworth- Emmons反应，在干燥四氢呋喃中合成了全共轭芘-蒽基分子棒。合成的棒材在极性溶剂中具有良好的溶解度，其主链上有丁烯基团作为溶解度间隔。由于芘基团的存在，合成的含芘分子棒溶液在紫外-可见光谱中与二醛相比出现了蓝移。通过1h和13c NMR、FAB+、MALDI-TOF、电喷雾质谱和元素分析对合成棒的化学结构和纯度进行了证实。高分子分子中电荷转移反应中心的存在取决于组成、间色团的分离、整体动力学和超分子重组以及电子耦合等因素(1)。人工电荷转移模型系统的合成，其中引入简单的分子变化来控制和调节电子转移参数的大小，已成为近年来人们非常感兴趣的主题。分子链或分子桥提供了无限的机会，因为它们决定了给体和受体片段之间的结构特征和电子耦合的大小(2)。修饰间隔层使得在不影响给体-受体对的电子性质的情况下，引入分离、取向和重叠的系统改变成为可能。其耦合与它们的电子云的重叠成正比(3)。电子转移过程取决于分子的大小和结构，以及供体-桥-受体系统中供体和受体之间的温度和自由能差。目前，具有明确长度和组成的单一多样和可溶性￻共轭体系正受到越来越多的人的兴趣，用于设计分子线(4)和分子棒(5)，因为它们可以用作纳米级化学的可调构建块(6)

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The Open Organic Chemistry Journal

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