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Recent progress on printable power supply devices and systems with nanomaterials
Nano Research ( IF 9.9 ) Pub Date : 2018-05-22 , DOI: 10.1007/s12274-018-2068-y
Yuanjing Lin , Yuan Gao , Fang Fang , Zhiyong Fan

In recent years, tremendous research interest has been triggered in the fields of flexible, wearable and miniaturized power supply devices and self-powered energy sources, in which energy harvesting/conversion devices are integrated with energy storage devices into an infinitely self-powered energy system. As opposed to conventional fabrication methods, printing techniques hold promising potency for fabrication of power supply devices with practical scalability and versatility, especially for applications in wearable and portable electronics. To further enhance the performance of the as-fabricated devices, the utilization of nanomaterials is one of the promising strategies, owing to their unique properties. In this review, an overview on the progress of printable strategies to revolutionize the fabrication of power supply devices and integrated system with attractive form factors is provided. The advantages and limitations of the commonly adopted printing techniques for power supply device fabrication are first summarized. Thereafter, the research progress on novel developed printable energy harvesting and conversion devices, including solar cells, nanogenerators and biofuel cells, and the research advances on printable energy storage devices, namely, supercapacitors and rechargeable batteries, are presented, respectively. Although exciting advances on printable material modification, innovative fabrication methods and device performance improvement have been witnessed, there are still several challenges to be addressed to realize fully printable fabrication of integrated self-powered energy sources.

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中文翻译:

具有纳米材料的可打印电源设备和系统的最新进展

近年来,在柔性,可穿戴和小型化的电源设备和自供电能源领域引发了巨大的研究兴趣,在这些领域中,能量采集/转换设备与储能设备集成到一个无限的自供电能源系统中。与传统的制造方法相反,印刷技术在制造具有实用可扩展性和多功能性的电源设备方面具有广阔的潜力,特别是在可穿戴和便携式电子设备中的应用。为了进一步提高所制造设备的性能,由于其独特的性能,利用纳米材料是有前途的策略之一。在这篇评论中,本文概述了可印刷策略的进展,以革新具有吸引力的外形尺寸的电源设备和集成系统的制造。首先总结了用于电源设备制造的常用印刷技术的优点和局限性。此后,提出了新颖的可打印能量收集和转换装置的研究进展,包括太阳能电池,纳米发电机和生物燃料电池,并分别介绍了可打印能量存储装置的研究进展,即超级电容器和可充电电池。尽管在可印刷材料修改方面取得了令人兴奋的进步,但人们已经目睹了创新的制造方法和设备性能的提高,

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更新日期:2018-05-22
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