Stretchable bioelectronics integrates mechanically compliant electronic materials and devices with soft, dynamic environments such as the human body and soft robots. The field develops flexible and stretchable conductors, transistors, sensors, displays, and circuit boards using liquid metal composites, conductive polymers, elastomers, hydrogels, and biodegradable substrates. Emphasis is placed on skin-like form factors, self-healing and shape-memory behavior, conformal 3D integration, and transient or recyclable systems, enabling wearable, implantable, and environmentally sustainable electronic and bioelectronic technologies.
Electronics & Semiconductors
New research from the WISE group (Wearable, Intelligent, Soft Electronics) at The University of Hong Kong (HKU-WISE) has addressed a long-standing bioelectronic challenge: the development of soft, 3D transistors.
Jan 15, 2026
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Electronics & Semiconductors
A research team led by Professor Leo Tianshuo Zhao from the Department of Electrical and Electronic Engineering at the Faculty of Engineering, University of Hong Kong (HKU), has developed the world's smallest fully printed ...
Jan 6, 2026
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Electronics & Semiconductors
Researchers from the Institute of Metal Research (IMR) of the Chinese Academy of Sciences have developed an innovative flexible sensor that can simultaneously detect strain, strain rate, and temperature using a single active ...
Dec 30, 2025
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Hardware
An ultrathin ferroelectric capacitor, designed by researchers from Japan, demonstrates strong electric polarization despite being just 30 nm thick including top and bottom electrodes—making it suitable for high-density electronics. ...
Dec 29, 2025
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Engineering
Northeastern University researchers have discovered that materials used in the development of transient electronics—devices designed to biodegrade at the end of their life—can break down into microplastics, casting doubt ...
Dec 22, 2025
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Robotics
In Nature Communications, a research team affiliated with UNIST present a fully biodegradable, robust, and energy-efficient artificial synapse that holds great promise for sustainable neuromorphic technologies. Made entirely ...
Dec 19, 2025
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Engineering
When everyday materials are pulled, they stretch or elongate in the direction of the pull and become narrower in cross-section. We can also observe this property in two-dimensional textiles. Auxetic structures behave differently ...
Dec 16, 2025
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Electronics & Semiconductors
Researchers at Boise State University have developed a breakthrough in wearable electronics: a multifunctional electronic tattoo (e‑tattoo) that integrates energy harvesting, energy storage, and real‑time biometric sensing ...
Dec 16, 2025
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Electronics & Semiconductors
What do Harry Potter's invisibility cloak and stealth fighter jets that evade radar have in common? They both make objects invisible despite their physical presence. Building upon this concept, a research team has taken it ...
Dec 16, 2025
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Electronics & Semiconductors
Researchers have successfully developed a high-resolution electronic skin (e-skin) device on a breathable (nanomesh) substrate using transfer technology employed in semiconductor manufacturing.
Dec 8, 2025
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