International audienceRecent advances in materials science research have enabled the production of highly stretchable sensors and displays. However, such technologies are not yet accessible to non-expert makers. We present a novel and inexpensive fabrication method for creating Stretchis, highly stretchable user interfaces that combine sensing capabilities and visual output. We use Polydimethylsiloxan (PDMS) as the base material for a Stretchi and show how to embed stretchable touch and proximity sensors and stretchable electroluminescent displays. Stretchis can be ultra-thin, flexible, and fully customizable, enabling non-expert makers to add interaction to elastic physical objects, shape-changing surfaces, fabrics, and the human body. We ...
Stretchable electronics can bridge the gap between hard planar electronic circuits and the curved, s...
When rigid and stretchable components are integrated onto a single elastic carrier substrate, large ...
Applications of stretchable electronic materials for human-machine interfaces are described herein. ...
Innovative enabling technologies are key drivers of human augmentation. In this paper, we explore a ...
AbstractIn this paper, we propose a stretch sensor for application to flexible interface. This senso...
Stretchable electronics represent an emerging class of devices that can be compressed, twisted and c...
technological advances in nanomaterials have driven the development of high-performance light-emitti...
The primary developing trends in flexible and stretchable electronics involve the innovation of mate...
Stretchable displays have recently received increasing attention as input and/or output interfaces f...
The human skin is an essential organ of the human body for sensing various changes in the external e...
Stretchable electroluminescent (EL) devices are a new form of mechanically deformable electronics th...
Stretchable electronics has emerged over the past decade and is now expected to bring form factor-fr...
Recent technological advances in nanomaterials have driven the development of high-performance light...
In the modern society with a variety of information electronic devices, human interfaces increase th...
Stretchable electronics, such as stretchable electrodes and stretchable strain sensors, is vital for...
Stretchable electronics can bridge the gap between hard planar electronic circuits and the curved, s...
When rigid and stretchable components are integrated onto a single elastic carrier substrate, large ...
Applications of stretchable electronic materials for human-machine interfaces are described herein. ...
Innovative enabling technologies are key drivers of human augmentation. In this paper, we explore a ...
AbstractIn this paper, we propose a stretch sensor for application to flexible interface. This senso...
Stretchable electronics represent an emerging class of devices that can be compressed, twisted and c...
technological advances in nanomaterials have driven the development of high-performance light-emitti...
The primary developing trends in flexible and stretchable electronics involve the innovation of mate...
Stretchable displays have recently received increasing attention as input and/or output interfaces f...
The human skin is an essential organ of the human body for sensing various changes in the external e...
Stretchable electroluminescent (EL) devices are a new form of mechanically deformable electronics th...
Stretchable electronics has emerged over the past decade and is now expected to bring form factor-fr...
Recent technological advances in nanomaterials have driven the development of high-performance light...
In the modern society with a variety of information electronic devices, human interfaces increase th...
Stretchable electronics, such as stretchable electrodes and stretchable strain sensors, is vital for...
Stretchable electronics can bridge the gap between hard planar electronic circuits and the curved, s...
When rigid and stretchable components are integrated onto a single elastic carrier substrate, large ...
Applications of stretchable electronic materials for human-machine interfaces are described herein. ...