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19 cze 2023 · Twisting and interlacing are two main design strategies to obtain fibre electronic devices with functionalities such as energy harvesting and storage, sensing, display and data-processing....
3 cze 2021 · Fibres containing digital devices could enable fabrics with digital system capabilities for applications in physiological monitoring, human-computer interfaces, and on-body machine-learning.
31 sty 2024 · Our work has shown that optoelectronic fibres, fabrics and functional apparel can be achieved using the semiconductor fibres, providing a promising pathway to achieve high-performance...
18 cze 2019 · This methodology, dubbed “VLSI for Fibers,” or “VLSI-Fi,” combines 3D printing of preforms, a thermal draw of fibers, and post-draw assembly of fiber-embedded integrated devices by means of material-selective spatially coherent capillary breakup of the fiber cores.
17 sie 2022 · The unique one-dimensional shape of fiber devices endows them advantages to work as human-interfaced electronics due to the small size, lightweight, flexibility, and feasibility for integration into large-scale textile systems.
A new generation of fibre-based electronics is emerging which can be made into wearable e-textiles. A suite of start-of-the-art functional materials have been used to develop novel fibre-based devices (FBDs), which have shown excellent potential in creating wearable e-textiles.
1 maj 2020 · The fiber devices exhibit unprecedented optoelectronic performance, demonstrated by their high photoresponsivity and photosensitivity, low dark current, low noise-equivalent power and ultrafast response speed, which are on par with many wafer-based devices.
