Rati Okta Della, Iwantono Iwantono
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引用次数: 1

摘要

染料敏化太阳能电池(DSSC)是由氟氧化锡(FTO)、氧化锌(ZnO)、染料、电解质和塑料溶胶组成的一层排列结构。采用种子介导水热法在FTO衬底上90℃温度下生长8小时,成功制备了ZnO纳米棒作为DSSC的光阳极。在染料分子中加入浓度为5 mM的银(Ag),对DSSC进行改性,提高其效率。采用紫外可见光谱(UV-Vis)和场发射扫描电镜(FESEM)对氧化锌进行了表征。在300 ~ 360 nm波长范围内,ZnO样品的紫外可见吸收光谱最强,吸光度最佳。同时,对于ZnO样品,在染料分子中加入5 mM Ag在440 ~ 530 nm波长范围内发生。样品的FESEM图像显示,合成的ZnO纳米棒具有六边形截面。使用强度为100 mW/ cm2的卤素灯进行光模式下的I-V特性,以确定DSSC的效率。在染料分子中加入5 mM Ag后,使用ZnO的DSSC效率为0.462%,比不加入Ag的使用ZnO的DSSC效率提高了0.45%。结果表明,Ag的加入可以提高DSSC的效率。
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PENGARUH PENAMBAHAN PERAK PADA MOLEKUL DYE TERHADAP EFISIENSI DYE SENSITIZED SOLAR CELL
Dye sensitized solar cell (DSSC) is made with a layer arrangement of fluorine tin oxide (FTO), zinc oxide (ZnO), dye, electrolyte, and plastisol. ZnO nanorods which play a role as photoanode in DSSC have been successfully grown on FTO substrate using seed mediated hydrothermal method at temperature of 90 oC  for 8 hours. Modification was made to increases the efficiency of DSSC by adding silver (Ag) with concentration of 5 mM into dye molecules. ZnO characterization was performed using ultra violet-vissible (UV-Vis) spectroscopy and field emission scanning electron microscopy (FESEM). The strongest UV-Vis absorbance spectrum with the optimum absorbance for the ZnO sampel was occurred at the wavelength range of 300 – 360 nm. Meanwhile, for the ZnO sample with addition of 5 mM Ag into dye molecule was occurred at the wavelength range of 440 – 530 nm. FESEM image of the sample shows the as-synthesized ZnO nanorods have hexagonal cross section. I-V characteristics in the light mode was carried out to determine the efficiency of DSSC using  a halogen lamp with an intensity of 100 mW/cm 2 . The efficiency of DSSC using ZnO with addition of 5 mM Ag into dye molecule is 0.462%, increases compared to the efficiency of DSSC using ZnO without addition of Ag into dye molecule which only produce 0.45% efficiency. These results indicate that the addition of Ag can increase the efficiency of DSSC.
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