Textile actuators are an emerging technology to develop biomimetic actuators with synergetic actuation. They are composed of a passive fabric coated with an electroactive polymer providing with mechanical motion. Here we used different conducting yarns (polyamide + carbon, silicon + carbon, polyamide + silver coated, cellulose + carbon, polyester + 2 x INOX 50µm, polyester + 2 x Cu/Sn and polyester + gold coated) to develop such textile actuators. It was possible to coat them through direct electrochemical methods, which should provide with an easier and more cost-effective fabrication process. The conductivity and the electrochemical properties of the yarns were sufficient to allow the electropolymerization of the conducting polymer polypy...
In this paper, we study the morphological, chemical and electrochemical characteristics of conductiv...
By the integration of electro-conductive properties in the fabric structure can be obtained a flexib...
The new age of wearable technology has popularized the field of smart textiles among researchers. In...
Textile actuators are an emerging technology to develop biomimetic actuators with synergetic actuati...
Recently, electrically driven conducting polymer (CP) coated yarns have shown great promise to devel...
Smart textiles combine the features of conventional textiles with promising properties of smart mate...
The dream of every wearables designer and user is fully integrated, silent, flexible and comfortable...
Existing actuators in robotics are noisy, rigid and not very lifelike in their movements. There is a...
Nonconductive commercial viscose yarns have been coated with a commercial conducting poly(3,4-ethyle...
The functionalization of textiles with electro-conductive particles and layers is a vivid field of r...
Commercially available yarns are promising precursor for artificial muscles for smart fabric-based t...
Over the last decade extensive research has been on the way to provide textile structures with elect...
Wearable electronics can be used for the purpose of fitness tracking, health monitoring, energy harv...
There has been increasing interest in the development and use of conductive materials in recent year...
Textiles are a promising base material for flexible and wearable electronic applica-tions such as se...
In this paper, we study the morphological, chemical and electrochemical characteristics of conductiv...
By the integration of electro-conductive properties in the fabric structure can be obtained a flexib...
The new age of wearable technology has popularized the field of smart textiles among researchers. In...
Textile actuators are an emerging technology to develop biomimetic actuators with synergetic actuati...
Recently, electrically driven conducting polymer (CP) coated yarns have shown great promise to devel...
Smart textiles combine the features of conventional textiles with promising properties of smart mate...
The dream of every wearables designer and user is fully integrated, silent, flexible and comfortable...
Existing actuators in robotics are noisy, rigid and not very lifelike in their movements. There is a...
Nonconductive commercial viscose yarns have been coated with a commercial conducting poly(3,4-ethyle...
The functionalization of textiles with electro-conductive particles and layers is a vivid field of r...
Commercially available yarns are promising precursor for artificial muscles for smart fabric-based t...
Over the last decade extensive research has been on the way to provide textile structures with elect...
Wearable electronics can be used for the purpose of fitness tracking, health monitoring, energy harv...
There has been increasing interest in the development and use of conductive materials in recent year...
Textiles are a promising base material for flexible and wearable electronic applica-tions such as se...
In this paper, we study the morphological, chemical and electrochemical characteristics of conductiv...
By the integration of electro-conductive properties in the fabric structure can be obtained a flexib...
The new age of wearable technology has popularized the field of smart textiles among researchers. In...