摘要
以市售PEDOT:PSS水溶液为催化层主要原材料,采用简易的旋涂工艺获得柔性和刚性两类透明对电极,着重考察了相应双面吸光染料敏化太阳电池(DSCs)的光电性能。结果表明,PEDOT:PSS对电极在可见光范围内(400nm^700nm)具有十分优异的透光性能,其透光率能维持在80%。采用高透光率的PEDOT:PSS对电极,能获得较理想的柔性和刚性两类双面吸光DSCs,正反面均展现出较佳的转换效率。当模拟光源从光阳极入射时,柔性和刚性两类器件的转换效率分别达到1.09%和5.11%,其值均与相应Pt对电极DSCs相当(分别为1.01%和5.19%);当模拟光源从对电极入射时,两类器件均依然具有从光阳极入射时效率的约50%,其值分别为0.51%和2.18%。
A commercial PEDOT:PSS aqueous solution was used as main raw material to prepare transparent counter electrodes of flexible type and rigid type in the simple spin - on process. Photoelectric performance of assembling bifacial(bifacially light absorbing)dye- sensitised solar cell was emphatically investigated. Results show that PEDOT:PSS counter electrode possess outstanding transmitting property in the visible range of 400nm to 700nm,keeping a transmittance of about 80% . Bifacial DSCs of flexible type and rigid type resembled with high transparent PEDOT:PSS counter electrode show comparably good conversion efficiency both positive and opposite (front and back). When the simulating illuminant enters from the photoanode side,devices of flexible type and rigid type show conversion efficiency of 1. 09% and 5. 11% respectively,compared to conversion efficiency of 1. 01% and 5. 19% respectively with corresponding Pt counter electrode assembling DSCs. While the simulating illuminant enters from the counter electrode side,both devices show conversion efficiency of 0. 51% and 2. 18% respectively,about the half value as simulating illuminant incident from photoanode side.
出处
《新余学院学报》
2014年第5期7-10,共4页
Journal of Xinyu University
基金
国家自然科学基金<聚合诱导相分离法原位生长可控结构碳催化层及其DSC光电性能优化理论>(51162025)
<基于仿生铜酶的有机/无机复合膜电极的制备及其催化性能研究>51263021)
江西省青年科学家培养对象计划(20133BCB23035)
江西省高等学校科技落地计划<应力形变辅助聚合诱导相分离法合成取向多孔碳及其作为 DSC 一体化催化层的性能>(KJLD13100)
江西省教育厅资助科研项目 <高效碳化天然木材对电极制备及其DSC光电性能研究>(GJJ13776)
关键词
导电聚合物
透明
对电极
太阳电池
光电性能
conducting polymer
transparence
counter electrode
solar cells
photovoltaic performances
