Changxiang Shao scite author profile

Converting ubiquitous environmental energy into electric power holds tremendous social and financial interests. Traditional energy harvesters and converters are limited by the specific materials and complex configuration of devices. Herein, it is presented that electric power can be directly produced from pristine graphene oxide (GO) without any pretreatment or additives once encountering the water vapor, which will generate an open-circuit-voltage of up to 0.4-0.7 V and a short-circuit-current-density of 2-25 µA cm on a single piece of GO film. This phenomenon results from the directional movement of charged hydrogen ions through the GO film. The present work demonstrates and provides an extremely simple method for electric energy generation, which offers more applications of graphene-based materials in green energy converting field.

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Large-Scale Production of Flexible, High-Voltage Hydroelectric Films Based on Solid Oxides

Shao

et al. 2019

ACS Appl. Mater. Interfaces

133

145

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Spontaneous electricity generation through water evaporation is becoming a hot research area. However, low power output, limited material availability, and unscalable fabrication largely hinder its wide applications. Here, we report scalable painting and blade coating approaches for the mass production of flexible hydroelectric films (HEFs) based on solid oxides (e.g., Al2O3), which are of tolerance to mechanical deformation and are compatible with three-dimensional diverse configuration. The electricity power is generated continuously and can last for more than 10 days in ambient conditions. A single HEF unit is capable of supplying an output voltage of more than 2.5 V and even up to 4.5 V at specific conditions. The accumulative energy output can be tuned conveniently by means of series/parallel connections or size control to meet the practical needs of commercial electronics. A family of solid oxides has been verified to have the ability for water evaporation-induced electricity generation, which offers considerable room for the development of high-performance energy-supplying devices.

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Intelligent multiple-liquid evaporation power generation platform using distinctive Jaboticaba-like carbon nanosphere@TiO₂ nanowires

et al. 2019

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Changxiang Shao

An efficient polymer moist-electric generator

Electric Power Generation through the Direct Interaction of Pristine Graphene‐Oxide with Water Molecules

Large-Scale Production of Flexible, High-Voltage Hydroelectric Films Based on Solid Oxides

Intelligent multiple-liquid evaporation power generation platform using distinctive Jaboticaba-like carbon nanosphere@TiO₂ nanowires

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About

Changxiang Shao

An efficient polymer moist-electric generator

Electric Power Generation through the Direct Interaction of Pristine Graphene‐Oxide with Water Molecules

Large-Scale Production of Flexible, High-Voltage Hydroelectric Films Based on Solid Oxides

Intelligent multiple-liquid evaporation power generation platform using distinctive Jaboticaba-like carbon nanosphere@TiO2 nanowires

Contact Info

Product

Resources

About

Intelligent multiple-liquid evaporation power generation platform using distinctive Jaboticaba-like carbon nanosphere@TiO₂ nanowires