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在通过逐层沉积工艺制造的光伏器件中使用含钌共轭聚合物作为光敏剂。

Use of a ruthenium-containing conjugated polymer as a photosensitizer in photovoltaic devices fabricated by a layer-by-layer deposition process.

作者信息

Man Ka Yan Kitty, Wong Hei Ling, Chan Wai Kin, Djurisić Aleksandra B, Beach Elvin, Rozeveld Steve

机构信息

Department of Chemistry, University of Hong Kong, Pokfulam Road, Hong Kong, China.

出版信息

Langmuir. 2006 Mar 28;22(7):3368-75. doi: 10.1021/la052655p.

Abstract

Multilayer polymer films composed of a ruthenium terpyridine complex containing poly(p-phenylenevinylene) (Ru-PPV) and sulfonated polyaniline (SPAN) were prepared by a layer-by-layer electrostatic self-assembly deposition. The deposition process was carried out from SPAN solution in water and Ru-PPV in dimethylformamide (DMF). Optical-quality multilayer thin films were obtained. The film growth process was monitored by quartz crystal microbalance, and the surface morphology of the films was studied by atomic force microscopy. It was found that the properties of the multilayer films were dependent on deposition conditions such as the pH of the SPAN solution, the presence of salt in the polymer solutions, and the post-film-forming thermal annealing process. Cross-section transmission electron microscopic images suggested that there was no stratified structure formed in the multilayer films. Photovoltaic cells were fabricated by sandwiching the multilayer films between indium-tin-oxide and aluminum electrodes. The device performances were examined by illumination with AM 1.5 simulated solar light. The power conversion efficiencies of these devices were on the order of 10(-3)%. The maximum incident photon-to-electron conversion efficiency (IPCE) of the devices was found to be approximately 2% at 510 nm, which is consistent with the absorption maximum of the ruthenium complex. This indicates that the photosensitization process is due to the electronic excitation of the ruthenium complex.

摘要

通过逐层静电自组装沉积法制备了由含聚对苯撑乙烯(Ru-PPV)的钌联吡啶配合物和磺化聚苯胺(SPAN)组成的多层聚合物薄膜。沉积过程从水中的SPAN溶液和二甲基甲酰胺(DMF)中的Ru-PPV开始进行。获得了光学质量的多层薄膜。通过石英晶体微天平监测薄膜生长过程,并通过原子力显微镜研究薄膜的表面形貌。发现多层薄膜的性能取决于沉积条件,如SPAN溶液的pH值、聚合物溶液中盐的存在以及成膜后的热退火过程。横截面透射电子显微镜图像表明多层薄膜中未形成分层结构。通过将多层薄膜夹在氧化铟锡和铝电极之间制备光伏电池。通过用AM 1.5模拟太阳光照射来检查器件性能。这些器件的功率转换效率约为10^(-3)%。发现器件在510 nm处的最大入射光子到电子转换效率(IPCE)约为2%,这与钌配合物的吸收最大值一致。这表明光敏化过程是由于钌配合物的电子激发。

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