Add to ORKGSoft conductive materials should enable large deformation while keeping high electrical conductivity and elasticity. The graphene oxide (GO)-based sponge is a potential candidate to endow large deformation. However, it typically exhibits low conductivity and elasticity. Here, the highly conductive and elastic sponge composed of GO, flower-shaped silver nanoparticles (AgNFs), and polyimide (GO-AgNF-PI sponge) are demonstrated. The average pore size and porosity are 114 mu m and 94.7%, respectively. Ag NFs have thin petals (8-20 nm) protruding out of the surface of a spherical bud (300-350 nm) significantly enhancing the specific surface area (2.83 m(2) g(-1)). The electrical conductivity (0.306 S m(-1) at 0% strain) of the GO-AgNF-PI sponge ...
To obtain ideal sensing materials with nearly zero temperature coefficient resistance (TCR) for self...
We report the piezoresistive and mechanical characteristics of three-dimensional (3D) graphene foam ...
Electronics is evolving from rigid, flexible to ultimate stretchable electronics, in which active op...
Porous carbon nanotube networks represent a type of material that can achieve both structural robust...
Porous functional materials play important roles in a wide variety of growing research and industria...
With the rapid development of flexible wearable electronics, a piezoresistive sensor with low detect...
Stress-responsive, highly flexible, and breathable nanocomposite sponges show an electrical conducti...
Enhancement in desired properties of next-generation flexible sensors requires continuous developmen...
Reduced graphene oxide (rGO) ribbons with arbitrary lengths were prepared by dry spinning of the hyd...
Graphene-based hydrogels are characterized by nanoporous structure and tailored properties, which ca...
The use of nanomaterials for strain sensors has attracted attention due to their unique electromecha...
Graphene has a planar atomic structure with high flexibility and might be used as ultrathin conducti...
We report the piezoresistive and mechanical characteristics of three-dimensional (3D) graphene foam ...
We are reporting, a novel reduced graphene oxide (RGO) and silver (Ag) nanocomposite based piezoresi...
Nanocarbonaceous materials with specific geometries and physicochemical properties allow the develop...
To obtain ideal sensing materials with nearly zero temperature coefficient resistance (TCR) for self...
We report the piezoresistive and mechanical characteristics of three-dimensional (3D) graphene foam ...
Electronics is evolving from rigid, flexible to ultimate stretchable electronics, in which active op...
Porous carbon nanotube networks represent a type of material that can achieve both structural robust...
Porous functional materials play important roles in a wide variety of growing research and industria...
With the rapid development of flexible wearable electronics, a piezoresistive sensor with low detect...
Stress-responsive, highly flexible, and breathable nanocomposite sponges show an electrical conducti...
Enhancement in desired properties of next-generation flexible sensors requires continuous developmen...
Reduced graphene oxide (rGO) ribbons with arbitrary lengths were prepared by dry spinning of the hyd...
Graphene-based hydrogels are characterized by nanoporous structure and tailored properties, which ca...
The use of nanomaterials for strain sensors has attracted attention due to their unique electromecha...
Graphene has a planar atomic structure with high flexibility and might be used as ultrathin conducti...
We report the piezoresistive and mechanical characteristics of three-dimensional (3D) graphene foam ...
We are reporting, a novel reduced graphene oxide (RGO) and silver (Ag) nanocomposite based piezoresi...
Nanocarbonaceous materials with specific geometries and physicochemical properties allow the develop...
To obtain ideal sensing materials with nearly zero temperature coefficient resistance (TCR) for self...
We report the piezoresistive and mechanical characteristics of three-dimensional (3D) graphene foam ...
Electronics is evolving from rigid, flexible to ultimate stretchable electronics, in which active op...