Flexible, stretchable sensors for wearable health monitoring: sensing mechanisms, materials, fabrication strategies and features
Y Liu, H Wang, W Zhao, M Zhang, H Qin, Y Xie - Sensors, 2018 - mdpi.com
Wearable health monitoring systems have gained considerable interest in recent years
owing to their tremendous promise for personal portable health watching and remote …
owing to their tremendous promise for personal portable health watching and remote …
Bio‐Inspired 3D Artificial Neuromorphic Circuits
X Liu, F Wang, J Su, Y Zhou… - Advanced Functional …, 2022 - Wiley Online Library
Neuromorphic circuits emulating the bio‐brain functionality via artificial devices have
achieved a substantial scientific leap in the past decade. However, even with the advent of …
achieved a substantial scientific leap in the past decade. However, even with the advent of …
Conductive polypyrrole-encapsulated silk fibroin fibers for cardiac tissue engineering
Y Liang, A Mitriashkin, TT Lim, JCH Goh - Biomaterials, 2021 - Elsevier
Polypyrrole (PPy) has been utilized in smart scaffolds to improve the functionality of the
engineered cardiac tissue. Compared to the commonly used aqueous coating, here, PPy …
engineered cardiac tissue. Compared to the commonly used aqueous coating, here, PPy …
[HTML][HTML] From flexible electronics technology in the era of IoT and artificial intelligence toward future implanted body sensor networks
Flexible electronics technology dramatically changes the capability of sensors, which allows
us to detect human biological signals not only on the skin but also inside the human body …
us to detect human biological signals not only on the skin but also inside the human body …
3D electrodes for bioelectronics
In recent studies related to bioelectronics, significant efforts have been made to form 3D
electrodes to increase the effective surface area or to optimize the transfer of signals at …
electrodes to increase the effective surface area or to optimize the transfer of signals at …
[HTML][HTML] Progress in conducting polymers for biointerfacing and biorecognition applications
Conducting polymers are an exciting class of organic electronic materials, which have
attracted an increasing interest in the fields of bioelectronics and their biomedical …
attracted an increasing interest in the fields of bioelectronics and their biomedical …
Progress and challenges of implantable neural interfaces based on nature-derived materials
E Redolfi Riva, S Micera - Bioelectronic Medicine, 2021 - Springer
Neural interfaces are bioelectronic devices capable of stimulating a population of neurons or
nerve fascicles and recording electrical signals in a specific area. Despite their success in …
nerve fascicles and recording electrical signals in a specific area. Despite their success in …
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 …
Nanocone-array-based platinum-iridium oxide neural microelectrodes: structure, electrochemistry, durability and biocompatibility study
Neural interfaces provide a window for bio-signal modulation and recording with the
assistance of neural microelectrodes. However, shrinking the size of electrodes results in …
assistance of neural microelectrodes. However, shrinking the size of electrodes results in …
Superparamagnetic iron oxide-enclosed hollow gold nanostructure with tunable surface plasmon resonances to promote near-infrared photothermal conversion
In this study, to enhance deep tissue penetration by near-infrared (NIR) light, a novel
superparamagnetic iron oxide-enclosed hollow gold nanoshell (SPIO-HGNS) structure with …
superparamagnetic iron oxide-enclosed hollow gold nanoshell (SPIO-HGNS) structure with …