The dye-sensitized solar cell (DSSC) is a new-type solar cell.
染料敏化太阳能电池(DSSC)是一种新型的太阳能电池。
This provides theoretical reference for the further synthesis of efficient DSSC photosensitizer.
这为进一步合成高效的DSSC光敏剂提供了理论参考。
After sinking into the patterned nanowire arrays, DSSC electrode structure was finally obtained.
通过多次浸润图案化线束的方法,最终组装得到DSSC电极阵列结构。
As the third generation solar battery, DSSC is the biggest attraction cheap raw materials and simple production process.
作为第三代太阳能电池,染料敏化电池的最大吸引力在于廉价的原材料和简单的制作工艺。
Compare with the cell based on gel electrolyte without mesoporous carbon, conversion efficiency of DSSC was improved 30%.
与未加入介孔炭的电解质组装的DSSC相比,电池的光电转换效率提高了30%。
Therefore, the PANI acetylene black composition is a credible alternative to hole conductor in ap plication of solid DSSC.
因此,聚苯胺乙炔黑复合电解质可以作为有效的空穴导体材料,应用到固态染料敏化太阳能电池中。
The synthesis of organic dye photosensitizer with significant red-shift adsorption spectra is the urgent task of current research on DSSC.
合成吸收光谱明显红移的有机染料光敏剂,是目前DSSC研究的迫切任务。
Final ly, the overall energy conversion efficiency of DSSC with PANI50% (in weight) acetylene black electrolyte is 48% of that of liquid DSSC.
最后,加入50%乙炔黑的聚苯胺电解质的电池光电转换效率达到了液态电池的48%。
In this paper, mesoporous materials were used as the gelator to prepared gel electrolyte for DSSC. The characteristics of these gel electrolytes were investigated.
本文用有序介孔材料作为凝胶剂制备凝胶电解质,并对制备的凝胶电解质的电化学性能进行了研究。
The simulation and experimental results are presented, verifying that the designed DSSC has good performance of power flow control, and configuration of DSSC is adaptable for D-FACTS.
仿真和实验表明,该补偿器具有良好的潮流控制作用,结构特点满足分布式FACTS需要。
To reduce the cost of DSSC. researchers have begun to pay close attention to the use of non-metallic organic photosensitizer dye as replacement of precious metal complexes in recent years.
为了降低DSSC的成本,最近几年研究者们开始关注使用非金属有机光敏剂染料来代替贵金属配合物。
To solve the problem of the poor absorption of dyes at the longer wavelength region, dye-sensitized solar cells (DSSC) with back surface reflection was introduced to enhance light absorption.
介绍了一种提高染料敏化太阳电池光吸收的背反射结构,以解决染料在长波范围吸光能力差的缺点。
To solve the problem of the poor absorption of dyes at the longer wavelength region, dye-sensitized solar cells (DSSC) with back surface reflection was introduced to enhance light absorption.
介绍了一种提高染料敏化太阳电池光吸收的背反射结构,以解决染料在长波范围吸光能力差的缺点。
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