Cellulose-based ionic conductor: An emerging material toward sustainable devices

Y Ye, L Yu, E Lizundia, Y Zhu, C Chen… - Chemical …, 2023 - ACS Publications
Ionic conductors (ICs) find widespread applications across different fields, such as smart
electronic, ionotronic, sensor, biomedical, and energy harvesting/storage devices, and …

Advances in biodegradable electronic skin: Material progress and recent applications in sensing, robotics, and human–machine interfaces

M Zarei, G Lee, SG Lee, K Cho - Advanced Materials, 2023 - Wiley Online Library
The rapid growth of the electronics industry and proliferation of electronic materials and
telecommunications technologies has led to the release of a massive amount of untreated …

Advances in bioresorbable materials and electronics

Y Zhang, G Lee, S Li, Z Hu, K Zhao… - Chemical …, 2023 - ACS Publications
Transient electronic systems represent an emerging class of technology that is defined by an
ability to fully or partially dissolve, disintegrate, or otherwise disappear at controlled rates or …

Flexible/stretchable supercapacitors with novel functionality for wearable electronics

K Keum, JW Kim, SY Hong, JG Son, SS Lee… - Advanced …, 2020 - Wiley Online Library
With the miniaturization of personal wearable electronics, considerable effort has been
expended to develop high‐performance flexible/stretchable energy storage devices for …

Design of biodegradable, implantable devices towards clinical translation

C Li, C Guo, V Fitzpatrick, A Ibrahim… - Nature Reviews …, 2020 - nature.com
Biodegradable materials, including natural and synthetic polymers and hydrolyzable metals,
constitute the main components of temporary, implantable medical devices. Besides the …

The evolution of flexible electronics: from nature, beyond nature, and to nature

P Wang, M Hu, H Wang, Z Chen, Y Feng… - Advanced …, 2020 - Wiley Online Library
The flourishing development of multifunctional flexible electronics cannot leave the
beneficial role of nature, which provides continuous inspiration in their material, structural …

Biodegradable materials and green processing for green electronics

W Li, Q Liu, Y Zhang, C Li, Z He, WCH Choy… - Advanced …, 2020 - Wiley Online Library
There is little question that the “electronic revolution” of the 20th century has impacted
almost every aspect of human life. However, the emergence of solid‐state electronics as a …

Flexible neuromorphic electronics for computing, soft robotics, and neuroprosthetics

HL Park, Y Lee, N Kim, DG Seo, GT Go… - Advanced …, 2020 - Wiley Online Library
Flexible neuromorphic electronics that emulate biological neuronal systems constitute a
promising candidate for next‐generation wearable computing, soft robotics, and …

3D-printed multifunctional materials enabled by artificial-intelligence-assisted fabrication technologies

Z Zhu, DWH Ng, HS Park, MC McAlpine - Nature Reviews Materials, 2021 - nature.com
The emerging capability to 3D print a diverse palette of functional inks will enable the mass
democratization of patient-specific wearable devices and smart biomedical implants for …

Stretchable, dynamic covalent polymers for soft, long-lived bioresorbable electronic stimulators designed to facilitate neuromuscular regeneration

YS Choi, YY Hsueh, J Koo, Q Yang, R Avila… - Nature …, 2020 - nature.com
Bioresorbable electronic stimulators are of rapidly growing interest as unusual therapeutic
platforms, ie, bioelectronic medicines, for treating disease states, accelerating wound …