Wearable Electronics: Wearable Large‐Scale Perovskite Solar‐Power Source via Nanocellular Scaffold (Adv. Mater. 42/2017),Advanced Materials

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Wearable Electronics: Wearable Large‐Scale Perovskite Solar‐Power Source via Nanocellular Scaffold (Adv. Mater. 42/2017)
Advanced Materials ( IF 29.4 ) Pub Date : 2017-11-08 , DOI: 10.1002/adma.201770308
Xiaotian Hu _{1,

2} , Zengqi Huang ₃ , Xue Zhou _{1,

2} , Pengwei Li _{1,

2} , Yang Wang ₁ , Zhandong Huang _{1,

2} , Meng Su _{1,

2} , Wanjie Ren _{1,

2} , Fengyu Li ₁ , Mingzhu Li ₁ , Yiwang Chen ₃ , Yanlin Song ₁

Affiliation

In article number 1703236, Fengyu Li, Yanlin Song, and co‐workers report hysteresis‐free, flexible, and large‐scale perovskite solar cells with recorded photoelectric conversion efficiencies of 12.3% for a 1 cm² single chip and 8.4% for a 24 cm² solar module. This is the first time that a wearable solar power source that can supply power for multifunction electronic devices with a variety of body movements is fabricated practically.

中文翻译：

可穿戴电子设备：通过纳米细胞支架可穿戴的大型钙钛矿太阳能电源（Adv。Mater。42/2017）

在1703236号文章中，李凤玉，宋艳林及其同事报告了无滞后，灵活且大型的钙钛矿太阳能电池，其记录的光电转换效率对于1 cm ²单芯片为12.3％，对于24 cm单芯片为8.4％。 cm ²太阳能模块。这是首次实际制造可穿戴式太阳能电源，该电源可以为具有各种身体运动的多功能电子设备供电。

更新日期：2017-11-08

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