Flexible and Wearable Sensors

doi:10.3390/books978-3-0365-8298-6

Reprint

Download Flyer

Flexible and Wearable Sensors

Edited by

August 2023

382 pages

ISBN978-3-0365-8299-3 (Hardback)
ISBN978-3-0365-8298-6 (PDF)

https://doi.org/10.3390/books978-3-0365-8298-6

Free download (PDF)

This book is a reprint of the Special Issue Flexible and Wearable Sensors that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

This Special Issue serves as a valuable resource for readers seeking to delve into the exciting field of flexible and wearable electronics and contribute to their further advancements. This Special Issue presents research papers, short communications, and review articles focusing on the following themes: (1) Novel structural designs, material fabrication, signal processing, and modeling of flexible and wearable sensors applying a wide range of mechanisms to flexible and wearable electronics;(2) MEMS techniques used in the production process of wearable and flexible sensors, along with simulation analysis with theoretical modeling;(3) Multiple application scenarios utilizing multivariable flexible and wearable sensor systems.

Format

Hardback

License

Keywords

TCM tongue diagnosis; deep learning; convolutional neural network; tongue segmentation; image classification; flexible electronics; flexible sensor; wearable sensor; iontronic pressure sensor; MoS₂; flexible piezoresistive sensor; MXene; honeycomb-like structure; femtosecond filamentating pulses; nanocomposites; tactile sensors; force sensors; pressure sensors; sensor phenomena and characterization; regression analysis; Gaussian distribution; sound source localization; multi-channel cross-correlation coefficient; microphone array; beamforming; piezoresistive pressure sensor; silicon-on-insulator (SOI) structure; dynamic environment test; 2D graphene film; 3D graphene foam; tactile sensor; pressure sensor; conductivity sensor; polarization effect; temperature compensation; high accuracy; ramie fabric; laser engraving; CMC; strain sensor; humidity sensor; flexible sensor; pressure; high sensitivity; portable; pulse monitoring; flexible wearable; biomedical; flexible materials; sensors; polymer-derived ceramics; thermistor; SiCN; conductivity; thin film strain gauge; direct ink writing; polymer-derived ceramics; conductive composites; high temperature; thin film strain gauge; additive manufacturing; thin film; high temperature; plasmonic; refractive index sensor; finite element method; Fano resonance; metal–insulator–mental; stretchable electronics; 3D printing; carbon fibers; electromechanical testing; strain sensor; flexible printed circuit boards; injection molding; film insert-based technology; respiratory monitoring; thermocouple; flow sensor; heat transfer; textile sensors; biosensing; smart textiles; porous electrode; flexible transistor; OECT; gastric cancer; tongue features; non-invasive; prediction framework; deep learning; flexible capacitive pressure sensor; double-sided microstructure; hemisphere microstructure; porous structure; pressure sensing; object recognition; hybrid nanogenerators; triboelectric nanogenerator; electromagnetic generator; wind-energy harvesting; low startup wind speed; self-powered sensor; dual-parameter flexible sensor; PEDOT:PSS; CNTs; external stimuli response; wearable devices; injection molding; simulation; in-mold electronics; over-molding; Moldflow; strain sensors; flexible electronics; smart wearable electronics; carbon nanotubes; electrical conductive networks; laser structuring; gesture recognition; sensor glove; n/a