Stretchable electronics has emerged as a new class of electronic technology to expand the applications of conventional electronics built on rigid wafers. Among various systems, liquid-state devices utilize electronically active liquids to achieve excellent stretchability and durability. The widespread adaption to such attractive form of device is hindered by the lack of robust fabrication approach to precisely and efficiently assemble liquid-state materials into functional systems. In this study, an additive manufacturing platform for digital fabrication of three-dimensional elastomeric structures is reported. The shear-thinning ink is formulated to enable omnidirectional printing process. Various elastic features with complex architectures...
The three-dimensional (3D) printing of flexible and stretchable materials with smart functions such ...
Soft matter elements undergoing programed, reversible shape change can contribute to fundamental adv...
This dissertation reports a diverse range of new components for the fabrication of soft flexible, st...
Stretchable electronics has emerged as a new class of electronic technology to expand the applicatio...
Soft and stretchable electronics (SSEs) have recently drawn considerable attention as an alternative...
To eliminate the mechanical strain on nonstretchable electronic materials while being stretched, the...
Most current wearable electronic products are often based on rigid circuit board technologies, limit...
Stretchable electronics promise to naturalize the way that we are surrounded by and interact with ou...
Soft matter, here, liquids and polymers, have adaptability to a surrounding geometry. They intrinsic...
Unconventional electronic devices in soft and three-dimensional (3D) curvilinear formats hold promis...
A new method, embedded-3D printing (e-3DP), is reported for fabricating strain sensors within highly...
Liquid metal embedded elastomers (LMEEs) are composed of a soft polymer matrix embedded with droplet...
Materials selected for microfluidic technology exhibit mechanical properties that can be a source of...
The inherent limitation of stretchable conductor design is mechanical mismatch, because typical Youn...
A key element in stretchable actuators, sensors, and systems based on elastomer materials are compli...
The three-dimensional (3D) printing of flexible and stretchable materials with smart functions such ...
Soft matter elements undergoing programed, reversible shape change can contribute to fundamental adv...
This dissertation reports a diverse range of new components for the fabrication of soft flexible, st...
Stretchable electronics has emerged as a new class of electronic technology to expand the applicatio...
Soft and stretchable electronics (SSEs) have recently drawn considerable attention as an alternative...
To eliminate the mechanical strain on nonstretchable electronic materials while being stretched, the...
Most current wearable electronic products are often based on rigid circuit board technologies, limit...
Stretchable electronics promise to naturalize the way that we are surrounded by and interact with ou...
Soft matter, here, liquids and polymers, have adaptability to a surrounding geometry. They intrinsic...
Unconventional electronic devices in soft and three-dimensional (3D) curvilinear formats hold promis...
A new method, embedded-3D printing (e-3DP), is reported for fabricating strain sensors within highly...
Liquid metal embedded elastomers (LMEEs) are composed of a soft polymer matrix embedded with droplet...
Materials selected for microfluidic technology exhibit mechanical properties that can be a source of...
The inherent limitation of stretchable conductor design is mechanical mismatch, because typical Youn...
A key element in stretchable actuators, sensors, and systems based on elastomer materials are compli...
The three-dimensional (3D) printing of flexible and stretchable materials with smart functions such ...
Soft matter elements undergoing programed, reversible shape change can contribute to fundamental adv...
This dissertation reports a diverse range of new components for the fabrication of soft flexible, st...