目前可替代能源中,染敏太陽能電池具低成本、製程簡易、多色彩、可撓曲之優點,已成為未來具有潛力之研究項目,其光敏染料的優劣為影響效率高低之重要因素。 由於先前之文獻報導,有機染料及無機染料之研究已趨於成熟,故想發展一套包含有機及無機混成之光敏染料,簡化HSM系列及有機部分保留其D-π-A型式的結構所設計之JDL系列,期望能與鋅金屬配位形成單體(Monomer)或二聚體(Dimer),以無機光敏染料之方式傳遞電子。藉由金屬配位前後比較其光吸收範圍、及太陽能電池參數及穩定性之改變,期望能在光敏染料結構及設計上提供一個新的方向。 ;In the alternative energy, Dye-Sensitized Solar Cells (DSSCs) possessing the advantages like low-cost, simple-process, multi-color, flexibility, has become a potential studies. In DSSC, the photosensitizer plays an important role on light absorption and better efficiency. According to previous research, the studies about organic and inorganic dyes are popular. We design a photosensitizer combined both of organic and inorganic, simplifying the HSM series and keeping D-π-A form, JDL series. Expect JDL series can coordinate with Zinc and form monomer or dimer. Compared the influences on metal, like stability and efficiency. We believe such an innovative design will provide a new direction to DSSCs.
