Hole transport layer free stable perovskite solar cell with low temperature processed carbon electrodes

P. Kartikay, A. Yella, S. Mallick
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引用次数: 3

Abstract

Perovskite solar cells, despite showing promising efficiency of more than 22%, is still far from realizing its full prospect on commercial scale, majorly owing to the cost associated with gold or silver counter electrode as well as hole transport material. Herein we report, low temperature processed carbon paste for hole transport layer free perovskite solar cell (PSC) fabricated in ambient conditions. Conductive (11.46 Ω □-1) and adherent carbon paste were prepared with acrylic and ethyl cellulose based binders. We have optimized the amount of binder required for good adherence as well as conductivity. Perovskite solar cell with the FTO/TiO2 compact layer/TiO2 mesoporous layer/MAPbI3/carbon architecture was fabricated with 7.41% power conversion efficiency. The prepared devices show promising stability for more than 500 hours.
具有低温加工碳电极的无空穴传输层稳定钙钛矿太阳能电池
尽管钙钛矿太阳能电池的效率有望超过22%,但由于与金或银对电极以及空穴传输材料相关的成本,钙钛矿太阳能电池仍远未实现其商业规模的全部前景。本文报道了在常温条件下制备无空穴输运层钙钛矿太阳能电池(PSC)的低温碳糊。以丙烯酸和乙基纤维素为粘结剂制备导电(11.46 Ω□-1)和粘附碳糊。我们优化了粘合剂的用量,以获得良好的粘附性和导电性。制备了FTO/TiO2致密层/TiO2介孔层/MAPbI3/碳结构的钙钛矿太阳能电池,功率转换效率为7.41%。所制备的器件表现出超过500小时的稳定性。
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