Stretchable, biocompatible devices can bridge electronics and biology. However, most stretchable conductors for such devices are toxic, costly, and regularly break/degrade after several large deformations. Here we show printable, highly stretchable, and biocompatible metal-polymer conductors by casting and peeling off polymers from patterned liquid metal particles, forming surface-embedded metal in polymeric hosts. Our printable conductors present good stretchability (2,316 S/cm at a strain of 500%) and repeatability (Delta R/R <3% after 10,000 cycles), which can satisfy most electrical applications in extreme deformations. This strategy not only overcomes large surface tension of liquid metal but also avoids the undesirable sintering of it...
Previous breakthroughs in stretchable electronics stem from strain engineering and nanocomposite app...
Stretchable electronics technologies have gained a lot of interest for reasons such as user comfort ...
Printing of stretchable conductors enables the fabrication and rapid prototyping of stretchable elec...
Stretchable, biocompatible devices can bridge electronics and biology. However, most stretchable con...
Recently, great stretchability progress has been witnessed in elastic electronics. However, such ele...
As printed electronics is evolving toward applications in biosensing and wearables, the need for nov...
Stretchable conductors are the basic units of advanced flexible electronic devices, such as skin‐lik...
Stretchable conductors are vital and indispensable components in soft electronic systems. The develo...
The necessity to place sensors far away from the processing unit in smart clothes or artificial skin...
The development and mechanical characterization of a novel technology for stretchable electronics is...
Stretchable electronics promise to naturalize the way that we are surrounded by and interact with ou...
Stretchable electronics are an emergent class of electronics that can retain their electric function...
The inherent limitation of stretchable conductor design is mechanical mismatch, because typical Youn...
Printing is one of the easy and quick ways to make a stretchable wearable electronics. Conventional ...
<p>Stretchable electronics has been a rapidly developing technology which allows devices to be defor...
Previous breakthroughs in stretchable electronics stem from strain engineering and nanocomposite app...
Stretchable electronics technologies have gained a lot of interest for reasons such as user comfort ...
Printing of stretchable conductors enables the fabrication and rapid prototyping of stretchable elec...
Stretchable, biocompatible devices can bridge electronics and biology. However, most stretchable con...
Recently, great stretchability progress has been witnessed in elastic electronics. However, such ele...
As printed electronics is evolving toward applications in biosensing and wearables, the need for nov...
Stretchable conductors are the basic units of advanced flexible electronic devices, such as skin‐lik...
Stretchable conductors are vital and indispensable components in soft electronic systems. The develo...
The necessity to place sensors far away from the processing unit in smart clothes or artificial skin...
The development and mechanical characterization of a novel technology for stretchable electronics is...
Stretchable electronics promise to naturalize the way that we are surrounded by and interact with ou...
Stretchable electronics are an emergent class of electronics that can retain their electric function...
The inherent limitation of stretchable conductor design is mechanical mismatch, because typical Youn...
Printing is one of the easy and quick ways to make a stretchable wearable electronics. Conventional ...
<p>Stretchable electronics has been a rapidly developing technology which allows devices to be defor...
Previous breakthroughs in stretchable electronics stem from strain engineering and nanocomposite app...
Stretchable electronics technologies have gained a lot of interest for reasons such as user comfort ...
Printing of stretchable conductors enables the fabrication and rapid prototyping of stretchable elec...