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Literature DB >> 33903750

Bilayer of polyelectrolyte films for spontaneous power generation in air up to an integrated 1,000 V output.

Haiyan Wang¹, Yilin Sun², Tiancheng He¹, Yaxin Huang¹, Huhu Cheng³, Chun Li¹, Dan Xie², Pengfei Yang⁴, Yanfeng Zhang⁴, Liangti Qu⁵.

Abstract

Environmentally adaptive power generation is attractive for the development of next-generation energy sources. Here we develop a heterogeneous moisture-enabled electric generator (HMEG) based on a bilayer of polyelectrolyte films. Through the spontaneous adsorption of water molecules in air and induced diffusion of oppositely charged ions, one single HMEG unit can produce a high voltage of ~0.95 V at low (25%) relative humidity (RH), and even jump to 1.38 V at 85% RH. A sequentially aligned stacking strategy is created for large-scale integration of HMEG units, to offer a voltage of more than 1,000 V under ambient conditions (25% RH, 25 °C). Using origami assembly, a small section of folded HMEGs renders an output of up to 43 V cm-3. Such integration devices supply sufficient power to illuminate a lamp bulb of 10 W, to drive a dynamic electronic ink screen and to control the gate voltage for a self-powered field effect transistor.

Entities: Chemical

Year: 2021 PMID： 33903750 DOI： 10.1038/s41565-021-00903-6

Source DB: PubMed Journal: Nat Nanotechnol ISSN： 1748-3387 Impact factor: 39.213

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Cited

9 in total

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5. Moisture adsorption-desorption full cycle power generation.

Authors: Haiyan Wang; Tiancheng He; Xuanzhang Hao; Yaxin Huang; Houze Yao; Feng Liu; Huhu Cheng; Liangti Qu
Journal: Nat Commun Date: 2022-05-09 Impact factor: 17.694

6. Achieving ultra-stable and superior electricity generation by integrating transistor-like design with lubricant armor.

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Journal: Innovation (Camb) Date: 2022-08-11