Motion artefact management for soft bioelectronics
Soft bioelectronic devices can be interfaced with anatomically curved organs, such as the
heart, brain and skin, to provide continuous analysis of physiological information. However …
heart, brain and skin, to provide continuous analysis of physiological information. However …
[HTML][HTML] Biological tissue-inspired ultrasoft, ultrathin, and mechanically enhanced microfiber composite hydrogel for flexible bioelectronics
Hydrogels offer tissue-like softness, stretchability, fracture toughness, ionic conductivity, and
compatibility with biological tissues, which make them promising candidates for fabricating …
compatibility with biological tissues, which make them promising candidates for fabricating …
[HTML][HTML] Dependence of skin-electrode contact impedance on material and skin hydration
Dry electrodes offer an accessible continuous acquisition of biopotential signals as part of
current in-home monitoring systems but often face challenges of high-contact impedance …
current in-home monitoring systems but often face challenges of high-contact impedance …
Wearable High‐Density MXene‐Bioelectronics for Neuromuscular Diagnostics, Rehabilitation, and Assistive Technologies
High‐density surface electromyography (HDsEMG) allows noninvasive muscle monitoring
and disease diagnosis. Clinical translation of current HDsEMG technologies is hampered by …
and disease diagnosis. Clinical translation of current HDsEMG technologies is hampered by …
[HTML][HTML] Textile-based wearable sensor for skin hydration monitoring
M Jang, HD Kim, HJ Koo, JH So - Sensors, 2022 - mdpi.com
This research describes a wearable skin hydration sensor based on cotton textile to
determine the state of hydration within the skin via impedance analysis. The sensor structure …
determine the state of hydration within the skin via impedance analysis. The sensor structure …
Real-time low latency estimation of brain rhythms with deep neural networks
I Semenkov, N Fedosov, I Makarov… - Journal of Neural …, 2023 - iopscience.iop.org
Objective. Neurofeedback and brain-computer interfacing technology open the exciting
opportunity for establishing interactive closed-loop real-time communication with the human …
opportunity for establishing interactive closed-loop real-time communication with the human …
[HTML][HTML] Fabrication of textile-based dry electrode and analysis of its surface EMG signal for applying smart wear
H Kim, S Rho, S Han, D Lim, W Jeong - Polymers, 2022 - mdpi.com
Ag/AgCl hydrogel electrodes, which are wet electrodes, are generally used to acquire bio-
signals non-invasively. Research concerning dry electrodes is ongoing due to the following …
signals non-invasively. Research concerning dry electrodes is ongoing due to the following …
Designing Unobtrusive Modulated Electrotactile Feedback on Fingertip Edge to Assist Blind and Low Vision (BLV) People in Comprehending Charts
Charts are crucial in conveying information across various fields but are inaccessible to
blind and low vision (BLV) people without assistive technology. Chart comprehension tools …
blind and low vision (BLV) people without assistive technology. Chart comprehension tools …
Evaluating and benchmarking the EEG signal quality of high-density, dry MXene-based electrode arrays against gelled Ag/AgCl electrodes
Objective. To evaluate the signal quality of dry MXene-based electrode arrays (also
termed'MXtrodes') for electroencephalographic (EEG) recordings where gelled Ag/AgCl …
termed'MXtrodes') for electroencephalographic (EEG) recordings where gelled Ag/AgCl …
Flexible-center Hat Complete Electrode Model for EEG Forward Problem
T Zhang, Y Liu, E Ma, B Peng, A Aarabi… - IEEE Transactions …, 2024 - ieeexplore.ieee.org
Objective: This study aims to develop a more realistic electrode model by incorporating the
non-uniform distribution of electrode contact conductance (ECC) and the shunting effects, to …
non-uniform distribution of electrode contact conductance (ECC) and the shunting effects, to …