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Cotton-textile-enabled flexible self-sustaining power packs via roll-to-roll fabrication.
Nature Communications ( IF 14.7 ) Pub Date : 2016-05-18 , DOI: 10.1038/ncomms11586
Zan Gao 1 , Clifton Bumgardner 1 , Ningning Song 1 , Yunya Zhang 1 , Jingjing Li 2 , Xiaodong Li 1
Nature Communications ( IF 14.7 ) Pub Date : 2016-05-18 , DOI: 10.1038/ncomms11586
Zan Gao 1 , Clifton Bumgardner 1 , Ningning Song 1 , Yunya Zhang 1 , Jingjing Li 2 , Xiaodong Li 1
Affiliation
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With rising energy concerns, efficient energy conversion and storage devices are required to provide a sustainable, green energy supply. Solar cells hold promise as energy conversion devices due to their utilization of readily accessible solar energy; however, the output of solar cells can be non-continuous and unstable. Therefore, it is necessary to combine solar cells with compatible energy storage devices to realize a stable power supply. To this end, supercapacitors, highly efficient energy storage devices, can be integrated with solar cells to mitigate the power fluctuations. Here, we report on the development of a solar cell-supercapacitor hybrid device as a solution to this energy requirement. A high-performance, cotton-textile-enabled asymmetric supercapacitor is integrated with a flexible solar cell via a scalable roll-to-roll manufacturing approach to fabricate a self-sustaining power pack, demonstrating its potential to continuously power future electronic devices.
中文翻译:
通过卷对卷制造实现棉纺织的柔性自给自足动力组。
随着能源问题日益严重,需要高效的能源转换和存储设备来提供可持续的绿色能源供应。太阳能电池由于利用容易获得的太阳能而有望成为能源转换设备;然而,太阳能电池的输出可能是不连续和不稳定的。因此,有必要将太阳能电池与兼容的储能设备相结合,以实现稳定的电力供应。为此,超级电容器(高效储能装置)可以与太阳能电池集成,以减轻功率波动。在这里,我们报告了太阳能电池-超级电容器混合器件的开发,作为满足这一能源需求的解决方案。通过可扩展的卷对卷制造方法,高性能、支持棉纺织的非对称超级电容器与柔性太阳能电池集成,以制造自我维持的电源组,展示其为未来电子设备持续供电的潜力。
更新日期:2016-05-21
中文翻译:
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通过卷对卷制造实现棉纺织的柔性自给自足动力组。
随着能源问题日益严重,需要高效的能源转换和存储设备来提供可持续的绿色能源供应。太阳能电池由于利用容易获得的太阳能而有望成为能源转换设备;然而,太阳能电池的输出可能是不连续和不稳定的。因此,有必要将太阳能电池与兼容的储能设备相结合,以实现稳定的电力供应。为此,超级电容器(高效储能装置)可以与太阳能电池集成,以减轻功率波动。在这里,我们报告了太阳能电池-超级电容器混合器件的开发,作为满足这一能源需求的解决方案。通过可扩展的卷对卷制造方法,高性能、支持棉纺织的非对称超级电容器与柔性太阳能电池集成,以制造自我维持的电源组,展示其为未来电子设备持续供电的潜力。