染料敏化太阳能电池的理论研究

J. Chen, A. L. Vishart, S. Sauer, K. Mikkelsen
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摘要

本报告考虑染料敏化太阳能电池(DSSC)的理论研究。采用理论方法研究了二氧化钛纳米颗粒与增敏剂之间的相互作用。利用ONIOM模型得到了含TiO2染料分子不同构象的几何形状及其结合能。通过TD-DFT计算得到了敏化剂和TiO2的吸收光谱和相对轨道能级。采用碎片电荷差法计算了不同敏化剂与TiO2之间的电子耦合。计算了敏化剂的氧化还原电位,以完成DSSC的整个工作周期。我们观察到-COOH基团不是唯一可能的结合位点,敏化剂更有可能水平吸附在TiO2表面,而不是垂直于有-COOH基团作为连接体的表面。TiO2纳米粒子对增敏剂的吸收影响较小,光谱位移小于0.2 eV。由于敏化剂与TiO2之间的相互作用扭曲了共轭发色团结构,TiO2对更软和更大分子的吸收有更大的影响。与中性形式相比,敏化剂的去质子化阴离子构象具有更大的结合能和更低的对TiO2导带的LUMO水平。敏化剂LUMO与TiO2导带边缘之间的间隙可能表示了敏化剂与TiO2之间的耦合强度。一些结合基团已经显示出与TiO2纳米粒子相互作用的良好性能,并且染料的一般去质子阴离子形式与TiO2纳米粒子紧密结合。模型和相关的计算结果与实验数据非常接近,并提供了染料敏化太阳能电池相关过程的关键原子信息。
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Theoretical Investigations of Dye-Sensitized Solar Cells
This presentation considers theoretical investigations of dye-sensitized solar cells (DSSC). Theoretical methods were applied to investigate the interactions between titanium dioxide nanoparticles and sensitizers. The ONIOM model was used to obtain the geometries of different conformers of dye molecules with TiO2 and their binding energies. TD-DFT calculations were carried out to obtain the absorption spectra and the relative orbital energy levels of sensitizers and TiO2. The electronic couplings between different sensitizers and TiO2 were calculated using the fragment charge difference method. The redox potentials of the sensitizers are calculated to complete the full working cycle of a DSSC. We observed that the -COOH group is not the only possible binding site, and the sensitizers are more likely to be adsorbed horizontally on the TiO2 surface instead of being perpendicular to the surface having the -COOH group as a linker. The TiO2 nanoparticle was found to have minor influence on the absorptions of the sensitizers with the spectra shift smaller than 0.2 eV. TiO2 has more influence on the absorptions of softer and larger molecules because the interactions between sensitizers and TiO2 twist the conjugated chromophore structures. Compared to the neutral form, the deprotonated anion conformers of the sensitizers have larger binding energy and lower LUMO level against conduction band of TiO2. The gap between the LUMO of sensitizers and conduction band edge of TiO2 might indicate the coupling strength between the sensitizers and TiO2. Several binding groups have shown promising properties for interacting with the TiO2 nanoparticle and generally deprotonated anion forms of the dyes were strongly bonded to the TiO2 nanoparticle. The model and associated calculated results provide close agreement with experimental data and give crucial atomistic information of the relevant processes in dye-sensitized solar cells.
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