广东化工
廣東化工
엄동화공
GUANGDONG CHEMICAL INDUSTRY
2012年
6期
12-14
,共3页
李洋%李雷勇%刘秋红%陈佩%田向静%邓静%李佑稷
李洋%李雷勇%劉鞦紅%陳珮%田嚮靜%鄧靜%李祐稷
리양%리뢰용%류추홍%진패%전향정%산정%리우직
染料敏化太阳能电池%碳黑%阻抗
染料敏化太暘能電池%碳黑%阻抗
염료민화태양능전지%탄흑%조항
dye-sensitized solar cell%carbon black%impedance
通常,染料敏化纳米太阳能电池(dye-sensitized solar cells,DSSCs)使用纳米金属氧化物来作为光阳极,如纳米TiO2,作为N型半导体通过连接染料来建立光阳极的。在光阳极中金属氧化物连接染料使DSSC的吸收光谱扩展到可见光谱区。文章研究在光阳极中添加导电碳黑使其成为纳米TiO2和染料之间的纽带。实验中使用粉末涂敷法在透光率约90%导电玻璃上涂覆纳米TiO2层在450℃烧结30 min,自然冷却然后再浸在染料和碳黑的混合物中敏化制得光阳极。添加的导电碳黑起到催化剂的作用,有助于染料电子的激发和纳米TiO2导带的增加并且减小了复合阻抗。结果表明,添加0.05 g导电碳黑的DSSCs光电性能最佳。开路电压增加了约33.9%,短路电流密度从4.385 mA/cm2增加到7.637mA/cm2。
通常,染料敏化納米太暘能電池(dye-sensitized solar cells,DSSCs)使用納米金屬氧化物來作為光暘極,如納米TiO2,作為N型半導體通過連接染料來建立光暘極的。在光暘極中金屬氧化物連接染料使DSSC的吸收光譜擴展到可見光譜區。文章研究在光暘極中添加導電碳黑使其成為納米TiO2和染料之間的紐帶。實驗中使用粉末塗敷法在透光率約90%導電玻璃上塗覆納米TiO2層在450℃燒結30 min,自然冷卻然後再浸在染料和碳黑的混閤物中敏化製得光暘極。添加的導電碳黑起到催化劑的作用,有助于染料電子的激髮和納米TiO2導帶的增加併且減小瞭複閤阻抗。結果錶明,添加0.05 g導電碳黑的DSSCs光電性能最佳。開路電壓增加瞭約33.9%,短路電流密度從4.385 mA/cm2增加到7.637mA/cm2。
통상,염료민화납미태양능전지(dye-sensitized solar cells,DSSCs)사용납미금속양화물래작위광양겁,여납미TiO2,작위N형반도체통과련접염료래건립광양겁적。재광양겁중금속양화물련접염료사DSSC적흡수광보확전도가견광보구。문장연구재광양겁중첨가도전탄흑사기성위납미TiO2화염료지간적뉴대。실험중사용분말도부법재투광솔약90%도전파리상도복납미TiO2층재450℃소결30 min,자연냉각연후재침재염료화탄흑적혼합물중민화제득광양겁。첨가적도전탄흑기도최화제적작용,유조우염료전자적격발화납미TiO2도대적증가병차감소료복합조항。결과표명,첨가0.05 g도전탄흑적DSSCs광전성능최가。개로전압증가료약33.9%,단로전류밀도종4.385 mA/cm2증가도7.637mA/cm2。
Usually,the dye-sensitized nano-solar cells(DSSCs) uses nano-metallic oxide,e.g.nano-TiO2,as N-type semiconductor connected with dye to build its photoanode.As N-type nano-TiO2 semiconductor by integrating the dye to set up the photoanode.The applied dye in connection with the metallic oxide in photoanode helps the DSSCs to enlarge its absorption spectra into visible spectrum.The paper investigated the addition of carbon black to the photoanode and make it as the bridge of nano-TiO2 and dye.the photoanode was fabricated by coating method to build nano-TiO2 layer with ca.90 % light transmittance on the FTO glass 450 ℃ sintering 30min,natural cooling and then immersed in the dye mixture of carbon black.The added carbon black played the role of catalyst to help electrons excitation of the dye and enhanced the conductive band of the nano-TiO2 and reduced the composite impedance.The result shows that when added 0.05 g carbon black the DSSCs have the best photoelectric performance.Its Open-circuit voltage increased almost 33.9 %,short-circuited current density increased from 4.385 mA/cm2 to 7.637 mA/cm2.