Add to ORKGMechanically flexible and optically transparent thin film solid state supercapacitors are fabricated by assembling nano-engineered carbon electrodes in porous templates. The electrodes have textured graphitic surface films with a morphology of interconnected arrays of complex shapes and porosity. The graphitic films act as both electrode and current collector, and when integrated with solid polymer electrolyte function as thin film supercapacitors. The nanostructured electrode morphology and conformal electrolyte packaging provide enough energy and power density for electronic devices in addition to possessing excellent mechanical flexibility and optical transparency
A novel self-supporting carbon thin film flexible supercapacitor electrode with high volumetric and ...
A novel self-supporting carbon thin film flexible supercapacitor electrode with high volumetric and ...
Supercapacitor as a new-type energy storage device has attracted increasing interests, because it ca...
Here we construct mechanically flexible and optically transparent thin film solid state supercapacit...
Thin-film supercapacitors are promising candidates for energy storage in wearable electronics due to...
We describe a simple process for the fabrication of transparent and flexible, solid-state supercapac...
We fabricated high performance supercapacitors by using all carbon electrodes, with volume energy in...
In this study, graphene-based supercapacitors with optical transparency and mechanical flexibility h...
Nanostructured carbon films have been grown at room temperature by supersonic cluster beam depositio...
A spray deposition manufacturing route has been developed for the fabrication of carbon nano-structu...
The fast growing interest in portable electronic devices and electric vehicles has stimulated extens...
The fast growing interest in portable electronic devices and electric vehicles has stimulated extens...
A micrometer-thin solid-state supercapacitor (SC) was assembled using two pieces of porous carbon na...
This research essentially focuses on the fabrication of a carbon-based flexible energy storage devi...
Abstract There is ever increasing demand for flexible energy storage devices due to the development...
A novel self-supporting carbon thin film flexible supercapacitor electrode with high volumetric and ...
A novel self-supporting carbon thin film flexible supercapacitor electrode with high volumetric and ...
Supercapacitor as a new-type energy storage device has attracted increasing interests, because it ca...
Here we construct mechanically flexible and optically transparent thin film solid state supercapacit...
Thin-film supercapacitors are promising candidates for energy storage in wearable electronics due to...
We describe a simple process for the fabrication of transparent and flexible, solid-state supercapac...
We fabricated high performance supercapacitors by using all carbon electrodes, with volume energy in...
In this study, graphene-based supercapacitors with optical transparency and mechanical flexibility h...
Nanostructured carbon films have been grown at room temperature by supersonic cluster beam depositio...
A spray deposition manufacturing route has been developed for the fabrication of carbon nano-structu...
The fast growing interest in portable electronic devices and electric vehicles has stimulated extens...
The fast growing interest in portable electronic devices and electric vehicles has stimulated extens...
A micrometer-thin solid-state supercapacitor (SC) was assembled using two pieces of porous carbon na...
This research essentially focuses on the fabrication of a carbon-based flexible energy storage devi...
Abstract There is ever increasing demand for flexible energy storage devices due to the development...
A novel self-supporting carbon thin film flexible supercapacitor electrode with high volumetric and ...
A novel self-supporting carbon thin film flexible supercapacitor electrode with high volumetric and ...
Supercapacitor as a new-type energy storage device has attracted increasing interests, because it ca...