Surface wrinkling for flexible and stretchable sensors
Recent advances in nanolithography, miniaturization, and material science, along with
developments in wearable electronics, are pushing the frontiers of sensor technology into …
developments in wearable electronics, are pushing the frontiers of sensor technology into …
Flexible strain sensors for wearable applications fabricated using novel functional nanocomposites: A review
MAU Khalid, SH Chang - Composite Structures, 2022 - Elsevier
With recent advancements in novel composite nanomaterials and microstructures, wearable
electronic devices, particularly flexible and stretchable strain sensors, are receiving …
electronic devices, particularly flexible and stretchable strain sensors, are receiving …
Decade of bio-inspired soft robots: A review
Soft robotics is an emerging field of robotics that focuses on the design of soft machines and
devices with effective human-machine interaction, high conformity, and environmental …
devices with effective human-machine interaction, high conformity, and environmental …
Robotics applications in COVID-19: A review
The COVID-19 outbreak has resulted in the manufacturing and service sectors being badly
hit globally. Since there are no vaccines or any proven medical treatment available, there is …
hit globally. Since there are no vaccines or any proven medical treatment available, there is …
Multi-material bio-inspired soft octopus robot for underwater synchronous swimming
Inspired by the simple yet amazing morphology of the Octopus, we propose the design,
fabrication, and characterization of multi-material bio-inspired soft Octopus robot (Octobot) …
fabrication, and characterization of multi-material bio-inspired soft Octopus robot (Octobot) …
A tough and strain-stiffening ionogel enabled by moderate microphase separation for epidermal multi-sensor
H Li, X Li, N Liu, D Liu, Z Wang, F Chen - Polymer, 2023 - Elsevier
Stretchable ionogels demonstrate promising potentials in the next-generation epidermal
electronics, due to their high conductivity, non-volatility and thermal stability. Nevertheless …
electronics, due to their high conductivity, non-volatility and thermal stability. Nevertheless …
Real-time sensors for live monitoring of disease and drug analysis in microfluidic model of proximal tubule
The quest to replace animal models used in drug testing owing to their lack of accuracy in
reflecting human physiology, and the higher comparative cost and time involved in testing …
reflecting human physiology, and the higher comparative cost and time involved in testing …
Ultra‐stretchable monofilament flexible sensor with low hysteresis and linearity based on MWCNTs/Ecoflex composite materials
Y Zhang, X Zhu, Y Liu, L Liu, Q Xu, H Liu… - Macromolecular …, 2021 - Wiley Online Library
Wearable human–computer interaction equipment is a common technology, which can
improve the comfort, convenience, and safety of the human body, and also can monitor …
improve the comfort, convenience, and safety of the human body, and also can monitor …
[HTML][HTML] Extracellular matrix optimization for enhanced physiological relevance in hepatic tissue-chips
The cellular microenvironment is influenced explicitly by the extracellular matrix (ECM), the
main tissue support biomaterial, as a decisive factor for tissue growth patterns. The recent …
main tissue support biomaterial, as a decisive factor for tissue growth patterns. The recent …
Long length MWCNT/TPU composite materials for stretchable and wearable strain sensors
S Bharadwaj, TK Gupta, GS Chauhan… - Sensors and Actuators A …, 2023 - Elsevier
High flexibility and ultra-sensitivity of electrically conductive polymer nanocomposites attract
researchers for the development of high performance strain sensors. Herein, we prepared …
researchers for the development of high performance strain sensors. Herein, we prepared …