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引用次数: 2
摘要
为了提高染料敏化太阳能电池的整体转换效率,人们已经进行了许多尝试。然而,这种类型的电池还没有解决的关键问题,如泄漏和挥发性有机溶剂的蒸发。因此,开发更稳定的固态或准固态电池是非常重要的。在本文报道的研究中,我们开发了一种新的染料敏化准固体太阳能电池的制造方法,利用liscs和甲基己基咪唑碘化(MHImI)固体复合材料作为空穴传输材料,取代由挥发性溶剂组成的液态碘化物和聚碘化物电解质。该器件基于Ru(II)三吡啶络合光敏剂(N719染料)单层吸收的6µm厚纳米tio2薄膜,在100 mW cm -2 (AM 1.5)光照下,具有优异的入射光子电子转换效率(IPCE, ~ 75%)、大电流密度(11.6 mA cm -2)和高光能转换效率(5.3 ~ 6.1%)。
Efficient quasi-solid dye sensitized solar cells employing molten salt electrolyte
There have been many attempts to increase the overall conversion efficiency of dye-sensitized solar cells using liquid-state electrolytes. However, this type of cells have unsolved critical problems such as leakage and evaporation of volatile organic solvents. Thus the development of more stable solid or quasi–solid state cell is of great importance. In the study reported here, we developed a novel fabrication method of dye sensitized quasi-solid solar cells using solid composite materials of LiSCN and methyl-hexyl-imidazolium iodide (MHImI) as hole transport materials to replace liquid iodide and polyiodide electrolyte which consists of volatile solvents. The device based on 6 µm thick nanocrystalline TiO 2 film absorbed by monolayer of Ru(II) terpyridyl complex photosensitizer (N719 dye), shows excellent incident photon-to-electron conversion efficiency (IPCE, ~ 75%) , large current density (11.6 mA cm -2 ), and high light-to-electric energy conversion efficiency (5.3- 6.1%) under the illumination of 100 mW cm -2 (AM 1.5).
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