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Recent advances in conductive hydrogels: classifications, properties, and applications
Hydrogel-based conductive materials for smart wearable devices have attracted increasing
attention due to their excellent flexibility, versatility, and outstanding biocompatibility. This …
attention due to their excellent flexibility, versatility, and outstanding biocompatibility. This …
Materials-driven soft wearable bioelectronics for connected healthcare
In the era of Internet-of-things, many things can stay connected; however, biological
systems, including those necessary for human health, remain unable to stay connected to …
systems, including those necessary for human health, remain unable to stay connected to …
3D printable high-performance conducting polymer hydrogel for all-hydrogel bioelectronic interfaces
Owing to the unique combination of electrical conductivity and tissue-like mechanical
properties, conducting polymer hydrogels have emerged as a promising candidate for …
properties, conducting polymer hydrogels have emerged as a promising candidate for …
A 10-micrometer-thick nanomesh-reinforced gas-permeable hydrogel skin sensor for long-term electrophysiological monitoring
Hydrogel-enabled skin bioelectronics that can continuously monitor health for extended
periods is crucial for early disease detection and treatment. However, it is challenging to …
periods is crucial for early disease detection and treatment. However, it is challenging to …
End-to-end design of wearable sensors
Wearable devices provide an alternative pathway to clinical diagnostics by exploiting
various physical, chemical and biological sensors to mine physiological (biophysical and/or …
various physical, chemical and biological sensors to mine physiological (biophysical and/or …
Low-impedance tissue-device interface using homogeneously conductive hydrogels chemically bonded to stretchable bioelectronics
Stretchable bioelectronics has notably contributed to the advancement of continuous health
monitoring and point-of-care type health care. However, microscale nonconformal contact …
monitoring and point-of-care type health care. However, microscale nonconformal contact …
A self-healing electrically conductive organogel composite
Self-healing hydrogels use spontaneous intermolecular forces to recover from physical
damage caused by extreme strain, pressure or tearing. Such materials are of potential use in …
damage caused by extreme strain, pressure or tearing. Such materials are of potential use in …
Highly Conductive MXene/PEDOT:PSS‐Integrated Poly(N‐Isopropylacrylamide) Hydrogels for Bioinspired Somatosensory Soft Actuators
P Xue, C Valenzuela, S Ma, X Zhang… - Advanced Functional …, 2023 - Wiley Online Library
Sophisticated sensing and actuation capabilities of many living organisms in nature have
inspired scientists to develop biomimetic somatosensory soft robots. Herein, the design and …
inspired scientists to develop biomimetic somatosensory soft robots. Herein, the design and …
Green flexible electronics: natural materials, fabrication, and applications
Z Hui, L Zhang, G Ren, G Sun, HD Yu… - Advanced …, 2023 - Wiley Online Library
The emergence of plastic electronics satisfies the increasing demand for flexible electronics.
However, it has caused severe ecological problems. Flexible electronics based on natural …
However, it has caused severe ecological problems. Flexible electronics based on natural …
Conductive hydrogel for flexible bioelectronic device: current progress and future perspective
Q He, Y Cheng, Y Deng, F Wen… - Advanced Functional …, 2024 - Wiley Online Library
Conductive hydrogels (CHs) for flexible bioelectronic devices have raised great attention
due to their tunable mechanical performances, adhesion, anti‐swelling, and …
due to their tunable mechanical performances, adhesion, anti‐swelling, and …