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PEDOT-based stretchable optoelectronic materials and devices for bioelectronic interfaces
W Li, Y Li, Z Song, YX Wang, W Hu - Chemical Society Reviews, 2024 - pubs.rsc.org
The rapid development of wearable and implantable electronics has enabled the real-time
transmission of electrophysiological signals in situ, thus allowing the precise monitoring and …
transmission of electrophysiological signals in situ, thus allowing the precise monitoring and …
Self-healing materials for flexible and stretchable electronics
L He, J Shi, B Tian, H Zhu, W Wu - Materials Today Physics, 2024 - Elsevier
Flexible and stretchable electronics promote the development of electronic devices in a
more flexible, convenient, and human-friendly direction, showing huge application potential …
more flexible, convenient, and human-friendly direction, showing huge application potential …
PNIPAM/PEDOT: PSS hydrogels for multifunctional organic electrochemical transistors
The development of multifunctional organic materials represents a vibrant area of research,
with applications spanning from biosensing to drug delivery. This study shows the …
with applications spanning from biosensing to drug delivery. This study shows the …
Self-healing, stretchable and recyclable polyurethane-PEDOT: PSS conductive blends
Future electronics call for materials with mechanical toughness, flexibility, and stretchability.
Moreover, self-healing and recyclability are highly desirable to mitigate the escalating …
Moreover, self-healing and recyclability are highly desirable to mitigate the escalating …
Highly Stretchable Self-Adhesive PEDOT: PSS Dry Electrodes for Biopotential Monitoring
S Hou, D Lv, Y Li, Z Li, M Liu, X Yu… - ACS Applied Polymer …, 2024 - ACS Publications
Wearable dry electrodes are the foundation for the development of long-term, real-time
biopotential monitoring devices. However, the physiological signals collected by common …
biopotential monitoring devices. However, the physiological signals collected by common …
Conducting polymer films and bioelectrodes combining high adhesion and electro-mechanical self-healing
Self-healable, conductive, soft, and stretchable electronic materials have become research
hotspots in wearable and bioelectronic devices for healthcare monitoring. In this study …
hotspots in wearable and bioelectronic devices for healthcare monitoring. In this study …
Electroconductive cardiac patch based on bioactive PEDOT: PSS hydrogels
E Sauvage, J Matta, CT Dang, J Fan… - … Research Part A, 2024 - Wiley Online Library
Engineering cardiac implants for treating myocardial infarction (MI) has advanced, but
challenges persist in mimicking the structural properties and variability of cardiac tissues …
challenges persist in mimicking the structural properties and variability of cardiac tissues …
A self-healing elastomer with outstanding mechanical properties was designed based on urea bonds
Y Cao, R Yan, X Wo, J Ma, X Yu, A Li… - Journal of Materials …, 2024 - pubs.rsc.org
Owing to the demand for high sensitivity and lightweight flexible electronic devices,
researchers have made efforts to develop wearable devices by integrating flexible electronic …
researchers have made efforts to develop wearable devices by integrating flexible electronic …
Self-adhesive, self-healing, and water-soluble polymeric dry electrodes for robust physiological signal monitoring
X Yu, Z Luo, X Ouyang, H Ye, Y Liu… - ACS Applied …, 2024 - ACS Publications
Dry electrodes are vital tools for monitoring physiological signals in various applications.
However, conventional dry electrodes encounter various limitations such as insufficient …
However, conventional dry electrodes encounter various limitations such as insufficient …
High‐Performance Textile‐Based Capacitive Strain Sensors via Enhanced Vapor Phase Polymerization of Pyrrole and Their Application to Machine Learning …
Sensors based on everyday textiles are extremely promising for wearable applications. The
present work focuses on high‐performance textile‐based capacitive strain sensors …
present work focuses on high‐performance textile‐based capacitive strain sensors …