摘要:
基于CdS良好的光学性质和单壁碳纳米管(SWCNT)优异的电子学性质,制备了纳米CdS/SWCNT复合材料和纳米CdS/聚乙烯亚胺(PEI)功能化SWCNT复合材料,并利用日光灯光源模拟太阳光研究了它们的光电性质.结果表明,纳米CdS/SWCNT复合材料呈现显著的负光电导现象,而纳米CdS/PEI-SWCNT复合材料呈现强烈的正光电导现象.用电子转移理论对这一结果进行了解释.两样品在大角度弯折的情况下,光电性质均基本没有变化.因此,纳米CdS/碳纳米管复合材料在光电领域,尤其是新兴的柔性光电子学领域有着良好的应用前景.
Abstract:
Based on the outstanding optical properties of CdS and excellent electronic properties of single walled carbon nanotube(SWCNT), nano-CdS particle/SWCNT composite materials and nano-CdS/polyethyleneimine(PEI) functionalized SWCNT composite materials are prepared.Their optical and the electrical properties are investigated by using fluorescent light simulated sunlight.The results show that nano-CdS/SWCNT composite material displays a significant negative photo-conductivity phenomenon,while nano-CdS/PEISWCNT composite material displays a positive photo-conductivity phenomenon,which can be were explained by using electrontransfer theory.The optical and the electrical properties of two samples are unchanged in the case of large angle bending.Therefore, the nano-CdS/SWCNT composite materials in optical and electrical areas,especially in the emerging field of flexible opto-electronics have a good prospect.
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