Add to ORKGAbstract — This paper discussed a top–down integration method to achieve the three-dimensional (3-D) microscale con-formal transferring of functional devices on flexible elastomeric substrates at ambient conditions. By the tunable laser-induced pressure, the functional device inherits the microscale wrinkle-like patterns, without compromising functions. The functional materials are encapsulated in the biocompatible parylene layers to avoid the drastic plastic deformations in functional layers. The electrical resistivity of functional device increases marginally with the applied laser intensity, aspect ratios of microscale features, and overall tensile strain applied to the whole flexible assembly. The stretchability of the transferred funct...
A new 3-D laser micromachining method of 3-D flexible structures has been introduced to enhance the ...
Stretchable electroluminescent (EL) devices are a new form of mechanically deformable electronics th...
Stretchable devices, with the capability of retaining their functionalities under stretching, are dr...
This paper focuses on the implementation of a new technique for the fabrication of stretchable elect...
Motivated by the diversified applications of micro-nanoscale systems in our daily life, a multitude ...
<p>Stretchable electronics has been a rapidly developing technology which allows devices to be defor...
Human skin is highly stretchable at low strain but becomes self-limiting when deformed at large stra...
The conversion of various polymer substrates into laser-induced graphene (LIG) with a CO2 laser in a...
A key element in stretchable actuators, sensors, and systems based on elastomer materials are compli...
For many years there has been a strong research interest in soft electronics for artificial skin app...
Stretchable electronic devices have recently gained a lot of attention because of their applications...
For user comfort and reliability reasons, electronic circuits for human body related applications sh...
Electronics implemented on biocompatible ultrathin substrates like polyethylene terephthalate, polyi...
Stretchable electronics, represents a class of novel electronic devices fabricated on flexible and b...
Bio-surfaces are curvilinear and rough. Electronics that can conform to complex three-dimensional (3...
A new 3-D laser micromachining method of 3-D flexible structures has been introduced to enhance the ...
Stretchable electroluminescent (EL) devices are a new form of mechanically deformable electronics th...
Stretchable devices, with the capability of retaining their functionalities under stretching, are dr...
This paper focuses on the implementation of a new technique for the fabrication of stretchable elect...
Motivated by the diversified applications of micro-nanoscale systems in our daily life, a multitude ...
<p>Stretchable electronics has been a rapidly developing technology which allows devices to be defor...
Human skin is highly stretchable at low strain but becomes self-limiting when deformed at large stra...
The conversion of various polymer substrates into laser-induced graphene (LIG) with a CO2 laser in a...
A key element in stretchable actuators, sensors, and systems based on elastomer materials are compli...
For many years there has been a strong research interest in soft electronics for artificial skin app...
Stretchable electronic devices have recently gained a lot of attention because of their applications...
For user comfort and reliability reasons, electronic circuits for human body related applications sh...
Electronics implemented on biocompatible ultrathin substrates like polyethylene terephthalate, polyi...
Stretchable electronics, represents a class of novel electronic devices fabricated on flexible and b...
Bio-surfaces are curvilinear and rough. Electronics that can conform to complex three-dimensional (3...
A new 3-D laser micromachining method of 3-D flexible structures has been introduced to enhance the ...
Stretchable electroluminescent (EL) devices are a new form of mechanically deformable electronics th...
Stretchable devices, with the capability of retaining their functionalities under stretching, are dr...