ABSTRACT: We report three representative nanowire (NW) devices for applications in stretchable electronics, strain sensing, and optical sensing. Fabrication of such devices is based on a recently developed strain-release assembly method. NWs are first aligned transversely on an elastomeric substrate using the strain-release assembly. Constant resistance is achieved in silicon (Si) NW devices stretched up to ∼40 % of axial strain, highlighting a new concept of transverse buckling. Combining the NW assembly with transfer printing extends suitable device substrates beyond elastomers to other unconventional materials (e.g., flexible and transparent materials). Following this combined process, flexible SiNW strain sensors are fabricated on plast...
The merger of nanoscale building blocks with flexible and/or low cost substrates could enable the de...
The increasing demand of electronic devices for physical motion detection has encouraged the develop...
The demand for flexible and wearable electronic devices is increasing due to their facile interactio...
We report three representative nanowire (NW) devices for applications in stretchable electronics, st...
ver the past decade, both semi-conductor and metallic nanowires (NWs) have been actively explored as...
The fabrication of nanowire (NW) devices on diverse substrates is necessary for applications such as...
Strain sensors can distinguish diverse deformations of target objects and have promising application...
Large-scale integration of high-performance electronic components on mechanically flexible substrate...
One-dimensional nanomaterials have drawn attention as an alternative electrode material for stretcha...
We introduce a photolithography process compatible with soft and rigid substrates, enabling the fabr...
Flexible strain sensors are widely used in the fields of personal electronic equipment and health mo...
Organic nanowires (ONWs) are flexible, stretchable, and have good electrical properties, and therefo...
In this study, we presented a wearable sensor patch for the early detection of extravasation by usin...
The demand for flexible and wearable electronic devices is increasing due to their facile interactio...
We recently developed stretchable electronic devices using several types of one-dimensional (1D) nan...
The merger of nanoscale building blocks with flexible and/or low cost substrates could enable the de...
The increasing demand of electronic devices for physical motion detection has encouraged the develop...
The demand for flexible and wearable electronic devices is increasing due to their facile interactio...
We report three representative nanowire (NW) devices for applications in stretchable electronics, st...
ver the past decade, both semi-conductor and metallic nanowires (NWs) have been actively explored as...
The fabrication of nanowire (NW) devices on diverse substrates is necessary for applications such as...
Strain sensors can distinguish diverse deformations of target objects and have promising application...
Large-scale integration of high-performance electronic components on mechanically flexible substrate...
One-dimensional nanomaterials have drawn attention as an alternative electrode material for stretcha...
We introduce a photolithography process compatible with soft and rigid substrates, enabling the fabr...
Flexible strain sensors are widely used in the fields of personal electronic equipment and health mo...
Organic nanowires (ONWs) are flexible, stretchable, and have good electrical properties, and therefo...
In this study, we presented a wearable sensor patch for the early detection of extravasation by usin...
The demand for flexible and wearable electronic devices is increasing due to their facile interactio...
We recently developed stretchable electronic devices using several types of one-dimensional (1D) nan...
The merger of nanoscale building blocks with flexible and/or low cost substrates could enable the de...
The increasing demand of electronic devices for physical motion detection has encouraged the develop...
The demand for flexible and wearable electronic devices is increasing due to their facile interactio...