Chemistry Program, Faculty of Science and Technology, Nakhon Pathom Rajabhat University, Nakhon Pathom 73000, Thailand.
J Comput Chem. 2010 May;31(7):1450-7. doi: 10.1002/jcc.21429.
The structural and electronic properties of fluorene-phenylene copolymer (FP)(n), n = 1-4 were studied by means of quantum chemical calculations based on density functional theory (DFT) and time dependent density functional theory (TD-DFT) using B3LYP functional. Geometry optimizations of these oligomers were performed for the ground state and the lowest singlet excited state. It was found that (FP)(n) is nonplanar in its ground state while the electronic excitations lead to planarity in its S(1) state. Absorption and fluorescence energies were calculated using TD-B3LYP/SVP and TD-B3LYP/SVP+ methods. Vertical excitation energies and fluorescence energies were obtained by extrapolating these values to infinite chain length, resulting in extrapolated values for vertical excitation energy of 2.89 and 2.87 eV, respectively. The S(1) <-- S(0) electronic excitation is characterized as a highest occupied molecular orbital to lowest unoccupied molecular orbital transition and is distinguishing in terms of oscillator strength. Fluorescence energies of (FP)(n) calculated from TD-B3LYP/SVP and TD-B3LYP/SVP+ methods are 2.27 and 2.26 eV, respectively. Radiative lifetimes are predicted to be 0.55 and 0.51 ns for TD-B3LYP/SVP and TD-B3LYP/SVP+ calculations, respectively. These fundamental information are valuable data in designing and making of promising materials for LED materials.
基于密度泛函理论(DFT)和含时密度泛函理论(TD-DFT),使用 B3LYP 函数,研究了芴-亚苯基共聚物(FP)(n),n = 1-4 的结构和电子性质。对这些低聚物的基态和最低单重激发态进行了几何优化。结果表明,(FP)(n)在基态时是非平面的,而电子激发导致其 S(1)态的平面化。使用 TD-B3LYP/SVP 和 TD-B3LYP/SVP+方法计算了吸收和荧光能。通过将这些值外推到无限链长,得到了垂直激发能的外推值分别为 2.89 和 2.87 eV。S(1)<--S(0)电子激发是最高占据分子轨道到最低未占据分子轨道跃迁的特征,在振子强度方面是有区别的。从 TD-B3LYP/SVP 和 TD-B3LYP/SVP+方法计算得到的(FP)(n)的荧光能分别为 2.27 和 2.26 eV。预测的辐射寿命分别为 0.55 和 0.51 ns,用于 TD-B3LYP/SVP 和 TD-B3LYP/SVP+计算。这些基本信息是设计和制造 LED 材料等有前途的材料的有价值的数据。
