Ion‐conducting hydrogels and their applications in bioelectronics
Bioelectronics focuses on the interface between biological systems and electronics. Most
biological systems are soft and wet, while electronics are typically hard and dry. Information …
biological systems are soft and wet, while electronics are typically hard and dry. Information …
Strategies for interface issues and challenges of neural electrodes
C Liang, Y Liu, W Lu, G Tian, Q Zhao, D Yang, J Sun… - Nanoscale, 2022 - pubs.rsc.org
Neural electrodes, as a bridge for bidirectional communication between the body and
external devices, are crucial means for detecting and controlling nerve activity. The …
external devices, are crucial means for detecting and controlling nerve activity. The …
Conductive interpenetrating network organohydrogels of gellan gum/polypyrrole with weather-tolerance, piezoresistive sensing and shape-memory capability
P Li, X Jia, Z Sun, J Tang, Q Ji, X Ma - International Journal of Biological …, 2024 - Elsevier
To develop ecofriendly multifunctional gel materials for sustainable flexible electronic
devices, composite organohydrogels of gellan gum (GG) and polypyrrole (PPy) with an …
devices, composite organohydrogels of gellan gum (GG) and polypyrrole (PPy) with an …
[HTML][HTML] Morphoceuticals: Perspectives for discovery of drugs targeting anatomical control mechanisms in regenerative medicine, cancer and aging
L Pio-Lopez, M Levin - Drug Discovery Today, 2023 - Elsevier
Highlights•Growth, form and function of complex organs rely on dynamic morphogenesis.•
Morphoceuticals manipulate anatomical decision making by cellular collectives.• …
Morphoceuticals manipulate anatomical decision making by cellular collectives.• …
Natural biopolymers as proton conductors in bioelectronics
Bioelectronic devices sense or deliver information at the interface between living systems
and electronics by converting biological signals into electronic signals and vice‐versa …
and electronics by converting biological signals into electronic signals and vice‐versa …
In-cell nanoelectronics: opening the door to intracellular electrophysiology
D Xu, J Mo, X Xie, N Hu - Nano-Micro Letters, 2021 - Springer
Establishing a reliable electrophysiological recording platform is crucial for cardiology and
neuroscience research. Noninvasive and label-free planar multitransistors and …
neuroscience research. Noninvasive and label-free planar multitransistors and …
Correlating ionic conductivity and microstructure in polyelectrolyte hydrogels for bioelectronic devices
Hydrogels have become the material of choice in bioelectronic devices because their high‐
water content leads to efficient ion transport and a conformal interface with biological tissue …
water content leads to efficient ion transport and a conformal interface with biological tissue …
Programmable delivery of fluoxetine via wearable bioelectronics for wound healing in vivo
H Li, H Yang, N Asefifeyzabadi… - Advanced Materials …, 2024 - Wiley Online Library
The ability to deliver drugs with precise dosages at specific time points can significantly
improve disease treatment while reducing side effects. Drug encapsulation for gradual …
improve disease treatment while reducing side effects. Drug encapsulation for gradual …
The multi-channel potentiostat: Development and evaluation of a scalable mini-potentiostat array for investigating electrochemical reaction mechanisms
A potentiostat is an essential piece of analytical equipment for studying electrochemical
devices and reactions. As the design of electrochemical devices evolve, applications for …
devices and reactions. As the design of electrochemical devices evolve, applications for …
Impedimetric detection of chloride ions using two symmetric Ag/AgCl electrodes
Abstract The suitability of Ag/AgCl electrodes for specific detection of chloride ions in
aqueous gels is investigated. In contrast to potentiometric sensors, we use an impedimetric …
aqueous gels is investigated. In contrast to potentiometric sensors, we use an impedimetric …