Cuticular pad–inspired selective frequency damper for nearly dynamic noise–free bioelectronics
Bioelectronics needs to continuously monitor mechanical and electrophysiological signals
for patients. However, the signals always include artifacts by patients' unexpected movement …
for patients. However, the signals always include artifacts by patients' unexpected movement …
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 …
Stretchable sponge electrodes for long-term and motion-artifact-tolerant recording of high-quality electrophysiologic signals
Soft electronic devices and sensors have shown great potential for wearable and
ambulatory electrophysiologic signal monitoring applications due to their light weight, ability …
ambulatory electrophysiologic signal monitoring applications due to their light weight, ability …
[HTML][HTML] Flexible bioelectronics for physiological signals sensing and disease treatment
Flexible bioelectronics, including wearable and implantable electronics, have revolutionized
the way of human-machine interaction due to the fact that they can provide natural and …
the way of human-machine interaction due to the fact that they can provide natural and …
Hairy‐Skin‐Adaptive Viscoelastic Dry Electrodes for Long‐Term Electrophysiological Monitoring
Long‐term epidermal electrophysiological (EP) monitoring is crucial for disease diagnosis
and human–machine synergy. The human skin is covered with hair that grows at an average …
and human–machine synergy. The human skin is covered with hair that grows at an average …
Wearable and implantable soft bioelectronics: device designs and material strategies
High-performance wearable and implantable devices capable of recording physiological
signals and delivering appropriate therapeutics in real time are playing a pivotal role in …
signals and delivering appropriate therapeutics in real time are playing a pivotal role in …
Bio-inspired flexible electronics for smart E-skin
B Nie, S Liu, Q Qu, Y Zhang, M Zhao, J Liu - Acta Biomaterialia, 2022 - Elsevier
Abstract “Learning from nature” provides endless inspiration for scientists to invent new
materials and devices. Here, we review state-of-the-art technologies in flexible electronics …
materials and devices. Here, we review state-of-the-art technologies in flexible electronics …
[PDF][PDF] Progress of flexible electronics in neural interfacing–a self‐adaptive non‐invasive neural ribbon electrode for small nerves recording
DOI: 10.1002/adma. 201503423 materials cannot provide long-term and robust interfaces
with neurons, neural fascicles, and nerves. The mechanical mismatch between these stiff …
with neurons, neural fascicles, and nerves. The mechanical mismatch between these stiff …
Spider-inspired tunable mechanosensor for biomedical applications
The recent advances of wearable sensors are remarkable but there are still limitations that
they need to be refabricated to tune the sensor for target signal. However, biological sensory …
they need to be refabricated to tune the sensor for target signal. However, biological sensory …
A strain-absorbing design for tissue–machine interfaces using a tunable adhesive gel
S Lee, Y Inoue, D Kim, A Reuveny, K Kuribara… - Nature …, 2014 - nature.com
To measure electrophysiological signals from the human body, it is essential to establish
stable, gentle and nonallergic contacts between the targeted biological tissue and the …
stable, gentle and nonallergic contacts between the targeted biological tissue and the …