钌基配合物的光物理研究及纳米结构TiO2基染料敏化太阳能电池的性能。

Meser M Ali, Wasif Pervez, William Ghann, Jamal Uddin
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引用次数: 6

摘要

染料敏化太阳能电池(DSSCs)由于其相对较小的尺寸,低成本和最小的环境影响,在过去的几十年里引起了极大的关注。DSSCs借助增感染料将太阳能转化为电能。本文合成了三(联吡啶)钌(II)氯化钌(Rubpy)和钌(II)2,2′-双(苯并咪唑-2-基)-4,4′-联吡啶(rubbpyh2)两种钌基染料,并对其用作DSSCs的染料增敏剂进行了表征和研究。对钌基DSSCs的光伏性能进行了评价。rubbpyh2 DSSC的太阳能-电力效率为0.2%,Rubpy为0.03%。并对rubbpyh2进行去质子化处理,研究去质子化对太阳能电池效率的影响。去质子化物种rubbpy的平均效率为0.12%。因此,改变pH值并不能提高太阳能电池的效率。通过阻抗测量进一步表征细胞。由于rubbpy比rubbpyh2表现出更突出的光带,但效率较低,因此光电流-光电压结果与吸收光谱不一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Photophysical Studies of Ruthenium-Based Complexes and the Performance of Nanostructured TiO<sub>2</sub> Based Dye Sensitized Solar Cells.

Photophysical Studies of Ruthenium-Based Complexes and the Performance of Nanostructured TiO<sub>2</sub> Based Dye Sensitized Solar Cells.

Photophysical Studies of Ruthenium-Based Complexes and the Performance of Nanostructured TiO<sub>2</sub> Based Dye Sensitized Solar Cells.

Photophysical Studies of Ruthenium-Based Complexes and the Performance of Nanostructured TiO2 Based Dye Sensitized Solar Cells.

Dye-sensitized solar cells (DSSCs) have attracted enormous attention in the last couple of decades due to their relatively small size, low cost and minimal environmental impact. DSSCs convert solar energy to electrical energy with the aid of a sensitizing dye. In this work, two ruthenium-based dyes, tris(bipyridine)ruthenium(II) chloride (Rubpy) and ruthenium(II)2,2'-bis(benzimidazol-2-yl)-4,4'-bipyridine (RubbbpyH2), were synthesized, characterized, and investigated for use as dye sensitizers in the fabrication of DSSCs. The photovoltaic performance of the ruthenium-based DSSCs was assessed. The solar-to-electric power efficiency of the RubbbpyH2 DSSC was 0.2% and that of the Rubpy was 0.03%. The RubbbpyH2 was also deprotonated and analyzed to study the effect of deprotonation on the efficiency of the solar cell. The deprotonated species, Rubbbpy, recorded an average efficiency of 0.12%. Thus, a change in pH did not enhance the efficiency of the solar cell. The cells were further characterized by impedance measurements. The photocurrent-photovoltage results were not consistent with the absorption spectra since Rubbbpy showed a more prominent band than RubbbpyH2 but had a lower efficiency.

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