Add to ORKGIn this study, graphene-based supercapacitors with optical transparency and mechanical flexibility have been achieved using a combination of poly(vinyl alcohol)/ phosphoric acid gel electrolyte and graphene electrodes.An optical transmittance of ∼67% in a wavelength range of 500-800 nm and a 92.4% remnant capacitance under a bending angle of 80◦ have been achieved for the supercapacitors. The decrease in capacitance under bending is ascribed to the buckling of the graphene electrode in compression. The supercapacitors with high optical transparency, electrochemical stability, and mechanical flexibility hold promises for transparent and flexible electronics
Graphene, a one-atomic-thick film of two-dimensional nanostructure, has piqued the attention of rese...
We describe a simple process for the fabrication of transparent and flexible, solid-state supercapac...
Stretchable and transparent electronics have steadily attracted huge attention in wearable devices. ...
In this study, graphene-based supercapacitors with optical transparency and mechanical flexibility h...
In this study, graphene-based supercapacitors with optical transparency and mechanical flexibility h...
Fabrication of a transparent and flexible supercapacitor requires electrode materials that are optic...
Thin-film supercapacitors are promising candidates for energy storage in wearable electronics due to...
Simple and easily integrated design of flexible and transparent electrode materials affixed to polym...
The ever-increasing demand for smart optoelectronics spurs the relentless pursuit of transparent wir...
Here we construct mechanically flexible and optically transparent thin film solid state supercapacit...
Flexible electronic devices find wide application in wearable electronics and foldable gadgets. This...
The electrolyte is an important and decisive factor in battery, capacitor and supercapacitor fabrica...
Ultrathin, transparent and flexible capacitors using graphene as the bottom electrodes were directly...
Ultrathin, transparent and flexible capacitors using graphene as the bottom electrodes were directly...
With the emergence of flexible electronic devices, flexible supercapacitors have attracted widesprea...
Graphene, a one-atomic-thick film of two-dimensional nanostructure, has piqued the attention of rese...
We describe a simple process for the fabrication of transparent and flexible, solid-state supercapac...
Stretchable and transparent electronics have steadily attracted huge attention in wearable devices. ...
In this study, graphene-based supercapacitors with optical transparency and mechanical flexibility h...
In this study, graphene-based supercapacitors with optical transparency and mechanical flexibility h...
Fabrication of a transparent and flexible supercapacitor requires electrode materials that are optic...
Thin-film supercapacitors are promising candidates for energy storage in wearable electronics due to...
Simple and easily integrated design of flexible and transparent electrode materials affixed to polym...
The ever-increasing demand for smart optoelectronics spurs the relentless pursuit of transparent wir...
Here we construct mechanically flexible and optically transparent thin film solid state supercapacit...
Flexible electronic devices find wide application in wearable electronics and foldable gadgets. This...
The electrolyte is an important and decisive factor in battery, capacitor and supercapacitor fabrica...
Ultrathin, transparent and flexible capacitors using graphene as the bottom electrodes were directly...
Ultrathin, transparent and flexible capacitors using graphene as the bottom electrodes were directly...
With the emergence of flexible electronic devices, flexible supercapacitors have attracted widesprea...
Graphene, a one-atomic-thick film of two-dimensional nanostructure, has piqued the attention of rese...
We describe a simple process for the fabrication of transparent and flexible, solid-state supercapac...
Stretchable and transparent electronics have steadily attracted huge attention in wearable devices. ...