Add to ORKG© 2020 Elsevier Ltd Pre-straining the elastic substrate is a commonly used strategy to fabricate buckle-structured electrodes for stretchable supercapacitors, but suffers from limited stretchability due to the detachment issue from mismatched mechanical properties. To enhance the stretchability of buckled polypyrrole (PPy) electrode on elastic poly(dimethylsiloxane) (PDMS), a rough interface is employed between the substrate and deposited layers. The surface roughness of substrate is produced by a facile imprinting process from a template (e.g. sandpaper), and it is inherited in the successive sputter coated current collector (Au) and electropolymerized PPy layers. The produced buckled PPy electrode on PDMS with optimal roughness shows a st...
Stretchable conductive polymer films are required to survive not only large tensile strain but also ...
Nowadays, stretchable electrodes for wearable electronic devices are becoming more and more popular ...
Organic stretchable electronics have attracted extensive scientific and industrial interest because ...
© 2020 Elsevier Ltd Pre-straining the elastic substrate is a commonly used strategy to fabricate buc...
The performance of many stretchable electronics, such as energy storage devices and strain sensors, ...
Stretchable electronic devices rely on stretchable conductors to form device interconnects and elect...
Stretchable electronic devices have recently gained a lot of attention because of their applications...
Stretchable electronics, such as stretchable electrodes and stretchable strain sensors, is vital for...
Stretchable electrodes comprising thin gold films with initial nanocracks on elastic substrates of p...
Stretchable electronic devices rely on stretchable conductors to form device interconnects and elect...
Several research methodologies have recently been developed to allow for the patterning of conductiv...
Skin-like electronics require materials that are conducting, soft, intrinsically stretchable, and hi...
Stretchable devices, with the capability of retaining their functionalities under stretching, are dr...
Stretching metallic conductors to large deformations while maintaining a low and constant electrical...
Recent advances in materials science and structural design have changed electronic applications from...
Stretchable conductive polymer films are required to survive not only large tensile strain but also ...
Nowadays, stretchable electrodes for wearable electronic devices are becoming more and more popular ...
Organic stretchable electronics have attracted extensive scientific and industrial interest because ...
© 2020 Elsevier Ltd Pre-straining the elastic substrate is a commonly used strategy to fabricate buc...
The performance of many stretchable electronics, such as energy storage devices and strain sensors, ...
Stretchable electronic devices rely on stretchable conductors to form device interconnects and elect...
Stretchable electronic devices have recently gained a lot of attention because of their applications...
Stretchable electronics, such as stretchable electrodes and stretchable strain sensors, is vital for...
Stretchable electrodes comprising thin gold films with initial nanocracks on elastic substrates of p...
Stretchable electronic devices rely on stretchable conductors to form device interconnects and elect...
Several research methodologies have recently been developed to allow for the patterning of conductiv...
Skin-like electronics require materials that are conducting, soft, intrinsically stretchable, and hi...
Stretchable devices, with the capability of retaining their functionalities under stretching, are dr...
Stretching metallic conductors to large deformations while maintaining a low and constant electrical...
Recent advances in materials science and structural design have changed electronic applications from...
Stretchable conductive polymer films are required to survive not only large tensile strain but also ...
Nowadays, stretchable electrodes for wearable electronic devices are becoming more and more popular ...
Organic stretchable electronics have attracted extensive scientific and industrial interest because ...