Preparation and Characterization of ZnO NWs/Graphene Nanocomposite as an Effective Photoanode Electrode for Improving the Performance of the Dye-Sensitized Solar Cells

H. Ali
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Abstract

In the present study, DSSCs were fabricated using pure ZnO NWs and ZnO NWs/Graphene nanocomposite as photoelectrodes. Graphene was incorporated into pure ZnO NWs through a cost-effective Hydrothermal Process to act as an electrical charge carrier. J-V curve of prepared nanocomposite was recorded with a light intensity of 100 mW.cm-2. The created nanocomposites were thoroughly investigated by using different electrical and structural characterization techniques such as SEM, XRD, and J-V characteristics. According to SEM examination, the ZnO NWs/graphene composite-based electrode has more porosity than the electrode made using pure ZnO NWs, which will increase the surface area and the amount of dye that can be absorbed. From the graphene advantages the reduced internal resistance and electron recombination loss, these properties allow electrons to transfer to the collection electrode efficiently. Based on these benefits, the ZnO NWs/Graphene nanocomposite photoanode with thickness of 965.11 nm that was used in the DSSC2 was demonstrated a Jsc of 19.50 mA.cm-2 and conversion efficiency of 9.829053%, which opposite to the result of the DSSC1 without graphene. These results can be encouraged for future improved optoelectronic devices.  
ZnO NWs/石墨烯纳米复合材料作为提高染料敏化太阳能电池性能的有效光阳极电极的制备与表征
在本研究中,采用纯ZnO NWs和ZnO NWs/石墨烯纳米复合材料作为光电极制备了DSSCs。通过低成本的水热工艺将石墨烯掺入到纯ZnO NWs中,作为电荷载体。在光强为100 mW.cm-2时,记录了制备的纳米复合材料的J-V曲线。利用SEM、XRD、J-V等不同的电学和结构表征技术对所制备的纳米复合材料进行了深入的研究。SEM检测结果表明,ZnO NWs/石墨烯复合电极比纯ZnO NWs电极具有更大的孔隙率,增加了电极的表面积和可吸收的染料量。石墨烯具有内阻小、电子复合损失小的优点,这些特性使电子能够有效地转移到收集电极。基于这些优点,用于DSSC2的厚度为965.11 nm的ZnO NWs/石墨烯纳米复合光阳极的Jsc为19.50 mA。转换效率为9.829053%,与未添加石墨烯的DSSC1的结果相反。这些结果可以鼓励未来改进的光电器件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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