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有机太阳能电池中无机材料的应用研究

Application Research of Inorganic Materials in Organic Solar Cells
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摘要 随着国内外对清洁能源太阳能的不断利用研究,其中有机太阳能电池的利用,能够带给人类带来更多的能源。在有机太阳能电池中,其中需要运用到有机半导体材料或者无机材料作为缓冲层,由于无机材料的应用效果更加明显,并且购买成本更加低廉,于是将其运用于有机太阳能电池中能够有更大的效益。本文将主要研究有机太阳能电池中无机材料的应用。首先对有机太阳能电池的工作原理和结构进行描述,然后再具体分析无机材料三个方面的应用,分别为在阳极缓冲层的应用、在活性层中的应用和作为阴极缓冲材料的应用。无机材料的类型比较多,不同类型的无机材料应用到有机太阳能电池中会有不同的应用效果,所以文中会对不同无机材料的作用进行分析。 With the continuous use of clean energy solar energy at home and abroad,the use of organic solar cells can bring more energy to humans.In organic solar cells,where an organic semiconductor material or an inorganic material is required as a buffer layer,since the application effect of the inorganic material is more obvious and the purchase cost is lower,the utility model can be more effective in organic solar cells.This paper will focus on the application of inorganic materials in organic solar cells.Firstly,the working principle and structure of the organic solar cell are described,and then the application of the inorganic material in three aspects is applied,which are applied in the anode buffer layer,in the active layer and as the cathode buffer material.There are many types of inorganic materials.Different types of inorganic materials have different application effects in organic solar cells,so this paper will analyze the effects of different inorganic materials.
作者 张琨 ZHANG Kun(Xi'an University of Posts&Telecommunications,Xi'an Shaanxi 710100,China)
机构地区 西安邮电大学通信与信息工程学院
出处 《粘接》 CAS 2019年第12期65-68,共4页 Adhesion
关键词 有机太阳能电池 无机材料 应用 organic solar cells inorganic materials application
分类号 TQ050.421 [化学工程]
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  • 1Chapin D M, Fuller C S, Pearson G L. A new Silicon p-n junction photocell for converting solar radiation into electrical power. J Appl Phys, 1954, 25:676-677.
  • 2Prince M B. Silicon solar energy converters. J Appl Phys, 1955, 26:534-540.
  • 3Chung B C, Virshup G F, Hikido S, Kaminar N R. 27.6% efficiency (1 sun, air mass 1.5) monolithic A10.37Ga0.63As/GaAs two-junction cascade solar cell with prismatic cover glass. Appl Phys Lett, 1989, 55:1741-1743.
  • 4O'Regan B, Gratzel M. A low-cost, high-efficiency solar cell based on dye-sensitized colloidal TiO2 films. Nature, 1991, 353: 737-740.
  • 5Gratzel M. Photoelectrochemical cells. Nature, 2001, 414:338-344.
  • 6Kallmann H, Pope M. Photovoltaic effect in organic crystals. J Chem Phys, 1959, 30:585-586.
  • 7Tang C W. Two-layer organic photovoltaic cell. Appl Phys Lett, 1986, 48:183-185.
  • 8Sariciftci N S, Smilowitz L, Heeger A J, Wudl F. Photoinduced electron transfer from a conducting polymer to buckminsterfullerene. Science, 1992, 258:1474-1476.
  • 9Sariciftci N S, Braun D, Zhang C, Srdanov V I, Heeger A J, Stucky G, Wudl F. Semiconducting polymer-buckminsterfullerene hetero- junctions: Diodes, photodiodes, and photovoltaic cells. Appl Phys Lett, 1993, 62:585-587.
  • 10Morita S, Zakhidov A A, Yoshino K. Doping effect of buckminsterfullerene in conducting polymer: Change of absorption spectrum and quenching of luminescene. Solid State Commun, 1992, 82:249-252.

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