环境光谱（LED， INC， CFL，氙…）对物联网（IoT）应用钙钛矿室内光伏太阳能电池效率的影响

IF 3 Q3 Physics and Astronomy

Results in Optics Pub Date : 2025-09-29 DOI:10.1016/j.rio.2025.100904

Youssef El Arfaoui, Abdennaceur Karoui

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引用次数: 0

摘要

钙钛矿太阳能电池PSCs在户外应用中表现出优异的性能；尽管如此，它们在人工照明下仍有很大的应用潜力。然而，关于聚光干细胞用于室内光收集的实验和理论研究仍然被忽视。在这项工作中，PSC被设计为FTO/TiO2/MAGeI3/Spiro-OMeTAD，并在空气质量1.5G光（Sun）、LED光、白炽灯（INC）、紧凑型荧光灯（CFL）、手电筒和氙气照明下使用SCAPS-1D进行了研究。初始效率在Sun、LED、INC、CFL、Flash、氙气下分别为15.47%、34.23%、15.01%、33.92%、32.40%、21.40%。在此基础上，研究了MAGeI3吸收体在不同环境光下的厚度和间隙对PCE的影响，分别达到16.09%、36.09%、17.8%、35.25%、35.17%和22.92%。这种基于magei3的钙钛矿的室内应用检查支持物联网设备的室内psc的部署。

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The influence of ambient light spectrum (LED, INC, CFL, Xenon…) on the efficiency of perovskite indoor photovoltaic solar cells for Internet of Things (IoT) applications

Perovskite solar cells PSCs show excellent performance for outdoor applications; Nevertheless, they hold significant potential for application under artificial lighting. However, both experimental and theoretical research about the use of PSCs for indoor light harvesting remain overlooked. In this work, a PSC has been designed as FTO/TiO₂/MAGeI₃/Spiro-OMeTAD and investigated under air mass 1.5G light (Sun), LED light, and Incandescent light (INC), Compact Fluorescent Light (CFL), Flashlight, and Xenon illumination employing SCAPS-1D. Initially, the efficiency is 15.47 % 34.23 % 15.01 % 33.92 % 32.40 % 21.40 % under Sun, LED, INC, CFL, Flash, Xenon, respectively. After that, the effect of the thickness and bap gap of the MAGeI₃ absorber under the studied ambient lights has also been studied and reached 16.09 % 36.09 % 17.8 % 35.25 % 35.17 % and 22.92 % as a PCE, respectively. This inspection of MAGeI₃-based perovskite for indoor application supports the deployment of indoor PSCs for Internet of Things devices.

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