Conductive hydrogels for bioenergy harvesting and self-powered application
C Zhang, MOG Nayeem, Z Wang, X Pu… - Progress in Materials …, 2023 - Elsevier
Conductive hydrogels (CHs) are characterized by tissue-like mechanical properties, multiple
stimuli-responsive abilities and favourable biocompatibility, enabling their wearable devices …
stimuli-responsive abilities and favourable biocompatibility, enabling their wearable devices …
Fibres—threads of intelligence—enable a new generation of wearable systems
C Dang, Z Wang, T Hughes-Riley, T Dias… - Chemical Society …, 2024 - pubs.rsc.org
Fabrics represent a unique platform for seamlessly integrating electronics into everyday
experiences. The advancements in functionalizing fabrics at both the single fibre level and …
experiences. The advancements in functionalizing fabrics at both the single fibre level and …
Multifunctional organohydrogel with ultralow‐hysteresis, ultrafast‐response, and whole‐strain‐range linearity for self‐powered sensors
J Zou, X Jing, Z Chen, SJ Wang, XS Hu… - Advanced Functional …, 2023 - Wiley Online Library
The conductive hydrogels always suffered from high internal friction, large hysteresis, and
low capability of accurately predicting physical deformation, which seriously restricted their …
low capability of accurately predicting physical deformation, which seriously restricted their …
Rapid gelation of tough and anti‐swelling hydrogels under mild conditions for underwater communication
M Pi, S Qin, S Wen, Z Wang, X Wang… - Advanced Functional …, 2023 - Wiley Online Library
Swelling is ubiquitous for conventional hydrogels but is not favorable for many situations,
especially underwater applications. In this study, an anti‐swelling and mechanically robust …
especially underwater applications. In this study, an anti‐swelling and mechanically robust …
Lignin nanosphere‐modified MXene activated‐rapid gelation of mechanically robust, environmental adaptive, highly conductive hydrogel for wearable sensors …
ZF Zeng, YQ Yang, XW Pang, B Jiang… - Advanced Functional …, 2024 - Wiley Online Library
Advanced conductive hydrogels demonstrate substantial potential for wearable devices.
Nevertheless, the transformative advance in soft electronics raises harsh requirements on …
Nevertheless, the transformative advance in soft electronics raises harsh requirements on …
Liquid‐Free, Anti‐Freezing, Solvent‐Resistant, Cellulose‐Derived Ionic Conductive Elastomer for Stretchable Wearable Electronics and Triboelectric Nanogenerators
C Lu, X Wang, Y Shen, C Wang, J Wang… - Advanced Functional …, 2022 - Wiley Online Library
The development of flexible conductive elastomers integrating renewable feedstock,
splendid mechanical property, and excellent weather resistance is of major interest and …
splendid mechanical property, and excellent weather resistance is of major interest and …
Enhanced mechanical strength and stretchable ionic conductive hydrogel with double-network structure for wearable strain sensing and energy harvesting
K Ou, M Wang, C Meng, K Guo, NS Emon, J Li… - … Science and Technology, 2024 - Elsevier
The conductive hydrogels with skin-like modulus have flourished as a promising soft
electronic material for health monitoring and human-machine interface systems …
electronic material for health monitoring and human-machine interface systems …
Temperature-mediated phase separation enables strong yet reversible mechanical and adhesive hydrogels
L Zhang, S Wang, Z Wang, Z Liu, X Xu, H Liu, D Wang… - Acs Nano, 2023 - ACS Publications
Hydrogels with strong yet reversible mechanical and adhesive properties fabricated in a
facile and friendly manner are important for engineering and intelligent electronics …
facile and friendly manner are important for engineering and intelligent electronics …
Super‐Stretchable, Anti‐Freezing, Anti‐Drying Organogel Ionic Conductor for Multi‐Mode Flexible Electronics
Y Long, B Jiang, T Huang, Y Liu, J Niu… - Advanced Functional …, 2023 - Wiley Online Library
Due to their intrinsic flexibility, tunable conductivity, multiple stimulus‐response, and self‐
healing ability, ionic conductive hydrogels have drawn significant attention in …
healing ability, ionic conductive hydrogels have drawn significant attention in …
Tough, antifreezing, and piezoelectric organohydrogel as a flexible wearable sensor for human–machine interaction
Piezoelectric hydrogel sensors are becoming increasingly popular for wearable sensing
applications due to their high sensitivity, self-powered performance, and simple preparation …
applications due to their high sensitivity, self-powered performance, and simple preparation …