Add to ORKGOne of the key factors to obtain large displacements and high efficiency with dielectric electroactive polymer (DEAPs) actuators is to have compliant electrodes. Attempts to scale DEAPs down to the mm or micrometer range have encountered major difficulties, mostly due to the challenge of micropatterning sufficiently compliant electrodes. Simply evaporating or sputtering thin metallic films on elastomer membranes produces DEAPs whose stiffness is dominated by the metallic film. Low energy metal ion implantation for fabricating compliant electrodes in DEAPs presents several advantages: a) it is clean to work with, b) it does not add thick passive layers, and c) it can be easily patterned. We use this technology to fabricate DEAPs micro-actuat...
Ras Labs produces electroactive polymer (EAP) based materials and actuators that bend, swell, ripple...
Electroactive polymers (EAPs) continue to gain attention for their potential to offer unique and ver...
We report on a novel technique to control the resonance frequency of polymer membranes, without addi...
One of the key factors to obtain large displacements and high efficiency with dielectric electroacti...
We report on the first ion-implanted dielectric electroactive polymer actuator that was successfully...
The miniaturization of dielectric elastomer actuators requires compliant electrodes that are clean, ...
AbstractMetal ion implantation is shown here as an effective technique to fabricate highly compliant...
We report measurements of displacement and mechanical work for miniaturized Dielectric Elastomer Act...
We report on the use of the bulge test method to characterize the mechanical properties of miniaturi...
This article presents metal ion implantation as an alternative technique to fabricate compliant elec...
We present the design, fabrication process and characterization of multilayer miniaturized polydimet...
We report on low-energy metal ion implantation by filtered cathodic vacuum arc to create highly defo...
We report on the mechanical characterization and modeling of a non-prestretched dielectric elastomer...
Supersonic cluster beam implantation of Ag nanoparticles is proposed for the fabrication of stretcha...
Dielectric elastomer actuators (DEA) are often referred to as artificial muscles due to their high s...
Ras Labs produces electroactive polymer (EAP) based materials and actuators that bend, swell, ripple...
Electroactive polymers (EAPs) continue to gain attention for their potential to offer unique and ver...
We report on a novel technique to control the resonance frequency of polymer membranes, without addi...
One of the key factors to obtain large displacements and high efficiency with dielectric electroacti...
We report on the first ion-implanted dielectric electroactive polymer actuator that was successfully...
The miniaturization of dielectric elastomer actuators requires compliant electrodes that are clean, ...
AbstractMetal ion implantation is shown here as an effective technique to fabricate highly compliant...
We report measurements of displacement and mechanical work for miniaturized Dielectric Elastomer Act...
We report on the use of the bulge test method to characterize the mechanical properties of miniaturi...
This article presents metal ion implantation as an alternative technique to fabricate compliant elec...
We present the design, fabrication process and characterization of multilayer miniaturized polydimet...
We report on low-energy metal ion implantation by filtered cathodic vacuum arc to create highly defo...
We report on the mechanical characterization and modeling of a non-prestretched dielectric elastomer...
Supersonic cluster beam implantation of Ag nanoparticles is proposed for the fabrication of stretcha...
Dielectric elastomer actuators (DEA) are often referred to as artificial muscles due to their high s...
Ras Labs produces electroactive polymer (EAP) based materials and actuators that bend, swell, ripple...
Electroactive polymers (EAPs) continue to gain attention for their potential to offer unique and ver...
We report on a novel technique to control the resonance frequency of polymer membranes, without addi...