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 …
Machine learning for bioelectronics on wearable and implantable devices: challenges and potential
Bioelectronics presents a promising future in the field of embedded and implantable
electronics, providing a range of functional applications, from personal health monitoring to …
electronics, providing a range of functional applications, from personal health monitoring to …
Merging machine learning and bioelectronics for closed-loop control of biological systems and homeostasis
The regulation of most physiological processes relies on a state of equilibrium called
homeostasis, which is achieved through a biological control loop involving sensors and …
homeostasis, which is achieved through a biological control loop involving sensors and …
High-throughput microfluidic systems accelerated by artificial intelligence for biomedical applications
J Zhou, J Dong, H Hou, L Huang, J Li - Lab on a Chip, 2024 - pubs.rsc.org
High-throughput microfluidic systems are widely used in biomedical fields for tasks like
disease detection, drug testing, and material discovery. Despite the great advances in …
disease detection, drug testing, and material discovery. Despite the great advances in …
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 …
The role of machine learning in advancing precision medicine with feedback control
The capacity of machine-learning methods to handle large and complex datasets makes
them suitable for applications in precision medicine. Current methods automate data …
them suitable for applications in precision medicine. Current methods automate data …
[HTML][HTML] Localized electrical stimulation triggers cell-type-specific proliferation in biofilms
Biological systems ranging from bacteria to mammals utilize electrochemical signaling.
Although artificial electrochemical signals have been utilized to characterize neural tissue …
Although artificial electrochemical signals have been utilized to characterize neural tissue …
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 …