[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 …
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 …
Synthesis of eugenol-functionalized polyhedral oligomer silsesquioxane for low-k bismaleimide resin combined with excellent mechanical and thermal properties as …
Z Zhang, Y Zhou, L Cai, L Xuan, X Wu, X Ma - Chemical Engineering …, 2022 - Elsevier
Introducing porous materials into resin matrix is effective to achieve low dielectric constant
(low-k) value but challenge for simultaneously improving mechanical and thermal properties …
(low-k) value but challenge for simultaneously improving mechanical and thermal properties …
Single‐crystal SnSe thermoelectric fibers via laser‐induced directional crystallization: from 1D fibers to multidimensional fabrics
Single‐crystal tin selenide (SnSe), a record holder of high‐performance thermoelectric
materials, enables high‐efficient interconversion between heat and electricity for power …
materials, enables high‐efficient interconversion between heat and electricity for power …
Localised structuring of metal-semiconductor cores in silica clad fibres using laser-driven thermal gradients
The molten core drawing method allows scalable fabrication of novel core fibres with
kilometre lengths. With metal and semiconducting components combined in a glass-clad …
kilometre lengths. With metal and semiconducting components combined in a glass-clad …
Semiconductor core fibres: materials science in a bottle
Novel core fibers have a wide range of applications in optics, as sources, detectors and
nonlinear response media. Optoelectronic, and even electronic device applications are now …
nonlinear response media. Optoelectronic, and even electronic device applications are now …
Silicon‐Based Dielectric Metamaterials: Focus on the Current Synthetic Challenges
ML De Marco, S Semlali, BA Korgel… - Angewandte Chemie …, 2018 - Wiley Online Library
Metamaterials have optical properties that are unprecedented in nature. They have opened
new horizons in light manipulation, with the ability to bend, focus, completely reflect …
new horizons in light manipulation, with the ability to bend, focus, completely reflect …
Recent progress in germanium-core optical fibers for mid-infrared optics
The search for low-loss and robust optical fibers in the infrared spectrum has always been
an important research topic for many investigators. Over the years, fibers of various materials …
an important research topic for many investigators. Over the years, fibers of various materials …
Laser structuring, stress modification and Bragg grating inscription in silicon-core glass fibers
Semiconductor core fibers have numerous potential applications in optoelectronics and
photonics, and the key to realizing these opportunities is controlled processing of the …
photonics, and the key to realizing these opportunities is controlled processing of the …