[HTML][HTML] Thermally drawn advanced functional fibers: New frontier of flexible electronics
Electronic devices are evolving from rigid devices into flexible and stretchable structures,
enabling a seamless integration of electronics into our everyday lives. The integration of a …
enabling a seamless integration of electronics into our everyday lives. The integration of a …
Advanced multimaterial electronic and optoelectronic fibers and textiles
W Yan, A Page, T Nguyen‐Dang, Y Qu… - Advanced …, 2019 - Wiley Online Library
The ability to integrate complex electronic and optoelectronic functionalities within soft and
thin fibers is one of today's key advanced manufacturing challenges. Multifunctional and …
thin fibers is one of today's key advanced manufacturing challenges. Multifunctional and …
Cold-programmed shape-morphing structures based on grayscale digital light processing 4D printing
Shape-morphing structures that can reconfigure their shape to adapt to diverse tasks are
highly desirable for intelligent machines in many interdisciplinary fields. Shape memory …
highly desirable for intelligent machines in many interdisciplinary fields. Shape memory …
Strain-programmable fiber-based artificial muscle
Artificial muscles may accelerate the development of robotics, haptics, and prosthetics.
Although advances in polymer-based actuators have delivered unprecedented strengths …
Although advances in polymer-based actuators have delivered unprecedented strengths …
Recent progress and perspectives of thermally drawn multimaterial fiber electronics
Fibers are the building blocks of a broad spectrum of products from textiles to composites,
and waveguides to wound dressings. While ubiquitous, the capabilities of fibers have not …
and waveguides to wound dressings. While ubiquitous, the capabilities of fibers have not …
Highly stretchable and wearable strain sensor based on printable carbon nanotube layers/polydimethylsiloxane composites with adjustable sensitivity
Strain sensors that are capable of monitoring complex human motions with high accuracy
are highly desirable for developing wearable electronics. This paper reports the fabrication …
are highly desirable for developing wearable electronics. This paper reports the fabrication …
Design of capillary microfluidics for spinning cell-laden microfibers
This protocol describes the design of capillary microfluidics for spinning bioactive (cell-
laden) microfibers for three-dimensional (3D) cell culture and tissue-engineering …
laden) microfibers for three-dimensional (3D) cell culture and tissue-engineering …
Spinning and applications of bioinspired fiber systems
Natural fiber systems provide inspirations for artificial fiber spinning and applications.
Through a long process of trial and error, great progress has been made in recent years …
Through a long process of trial and error, great progress has been made in recent years …
Self-shrinking soft demoulding for complex high-aspect-ratio microchannels
Microchannels are the essential elements in animals, plants, and various artificial devices
such as soft robotics, wearable sensors, and organs-on-a-chip. However, three-dimensional …
such as soft robotics, wearable sensors, and organs-on-a-chip. However, three-dimensional …
Touchpoint-tailored ultrasensitive piezoresistive pressure sensors with a broad dynamic response range and low detection limit
Wearable pressure sensors with high sensitivity, broad dynamic response range, and low
detection limit are highly desirable to enable the applications in electronic skins and soft …
detection limit are highly desirable to enable the applications in electronic skins and soft …