UC知道化学文献翻译
来源:百度知道 编辑:UC知道 时间:2024/05/26 20:24:21
We note that device photoconversion efficiency could be
improved in the following manner. To improve the fill factor,
after the TiO2 nanowire growth, we subsequently coated an
overlayer of niobium oxide onto the nanowires, which has
been shown to improve the efficiency by reducing recombination.
To form the Nb2O5 coating, the prepared
nanowire samples were dipped in a 5 mMNbCl5 dry ethanol
solution, then heated in air at 500 °C for 0.5 h.33 Figure 4b
shows the J-V characteristics of a typical Group A sample
under AM 1.5 illumination. An overall photoconversion
efficiency of 5.02% is achieved, with an open circuit voltage
(Voc) of 0.744 V, short circuit current density (Jsc) of 10.84
mA cm-2, and fill factor (FF) of 0.62.
We note that in spite of their superior charge transport
characteristics, 20 μm long ZnO nanowire arrays exhibit
relatively low efficiencies when used in dye sensitized solar
cells due to
improved in the following manner. To improve the fill factor,
after the TiO2 nanowire growth, we subsequently coated an
overlayer of niobium oxide onto the nanowires, which has
been shown to improve the efficiency by reducing recombination.
To form the Nb2O5 coating, the prepared
nanowire samples were dipped in a 5 mMNbCl5 dry ethanol
solution, then heated in air at 500 °C for 0.5 h.33 Figure 4b
shows the J-V characteristics of a typical Group A sample
under AM 1.5 illumination. An overall photoconversion
efficiency of 5.02% is achieved, with an open circuit voltage
(Voc) of 0.744 V, short circuit current density (Jsc) of 10.84
mA cm-2, and fill factor (FF) of 0.62.
We note that in spite of their superior charge transport
characteristics, 20 μm long ZnO nanowire arrays exhibit
relatively low efficiencies when used in dye sensitized solar
cells due to
在线翻译啊
很好用的
我们注意到,设备效率可以通过改善下列方式而提高。为了提高填充效果,促进二氧化钛纳米线的增长,我们最终选用的涂层overlayer的氧化铌到纳米级,这个事实表明,减少重组可以提高效率。对样品进行了浸泡5分钟NbCl5干乙醇形将成铌涂层
,然后在空气中加热到500C°,0.5 h.33图4B条
显示了合资公司的典型特征的A组样本根据调幅1.5照明。总体光反应吸收效率达到5.02 % ,其开路电压 (开路电压Voc )为0.744伏,短路电流密度(中心)的10.84 毫安厘米- 2 ,填充因子(法国法郎)的0.62 。 我们注意到,尽管他们的上级负责运输特点, 20 μm的氧化锌纳米线阵列的长期展览相对低效率使用时,染料敏化太阳能电池由于有廉价染料,其利用价值高于很多属性高的光电转换效率,从而使用二氧化钛纳米线阵列吸附染料能力增强,关于(金红石)晶面,这既是稳定和有
强相互作用与羧基的N719染料 分子。与此相反,酸性羧基的 染料解散外层表面形成氧化锌 锌离子染料复杂层,而这反过来又削弱了 互动染料与电极表面。 DSSC二氧化钛 纳米电极参展的最高性能 通常是从电影建造至少10微米厚。然而,太阳能电池组成的2微米长金红石纳米线 合成了我们展示更高效率比金红石纳米薄膜厚度大于5 μm.Efficient矢量 负责运输,启用单晶纳米线,使我们相信,可以显着提高效率 合理地期望通过解决接口 问题和纳米线,群聚目前看到的二氧化钛
纳米线阵列4微米长,这将使更多的光吸收没有相应阻碍从而提高电子转移能力。提高效率,
哥们 咋这么有缘呢?? 我们现在就做这个,以后多交流啊!!!