Biospinning of hierarchical fibers for a self-sensing actuator
C Xu, Z Jiang, B Wang, J Chen, T Sun, F Fu… - Chemical Engineering …, 2024 - Elsevier
Artificial muscles, skin, and flexible electronics all benefit from smart actuators. However,
developing actuators with high self-driving/sensing capabilities, as well as the real-time …
developing actuators with high self-driving/sensing capabilities, as well as the real-time …
From Nature to Technology: Exploring Bioinspired Polymer Actuators via Electrospinning
MY Razzaq, M Balk, M Mazurek-Budzyńska… - Polymers, 2023 - mdpi.com
Nature has always been a source of inspiration for the development of novel materials and
devices. In particular, polymer actuators that mimic the movements and functions of natural …
devices. In particular, polymer actuators that mimic the movements and functions of natural …
Effect of Polypyrrole on the Capacitance Enhancement of the Spherical ZnS–ZnO/gC3N4 Nanocomposite for Supercapacitor Applications
AM Elsayed, MA Alnuwaiser, M Rabia - Journal of Inorganic and …, 2023 - Springer
Abstract The ZnS–ZnO/graphitic carbon nitride (g-C3N4) nanocomposite was synthesized
using the hydrothermal method, incorporating 0.05 g of g-C3N4 during the composite …
using the hydrothermal method, incorporating 0.05 g of g-C3N4 during the composite …
Looking both ways: Electroactive biomaterials with bidirectional implications for dynamic cell–material crosstalk
KK Lee, N Celt, HAM Ardoña - Biophysics Reviews, 2024 - pubs.aip.org
Cells exist in natural, dynamic microenvironmental niches that facilitate biological responses
to external physicochemical cues such as mechanical and electrical stimuli. For excitable …
to external physicochemical cues such as mechanical and electrical stimuli. For excitable …
[HTML][HTML] Synergistic actuation performance of artificial fern muscle with a double nanocarbon structure
Electrochemically powered carbon nanotube (CNT) yarn muscles are of increasing interest
because of their advantageous features as artificial muscles. They are light, and have high …
because of their advantageous features as artificial muscles. They are light, and have high …
Intelligent Cobweb Structures for All‐In‐One Flexible Devices via Laser Thermal Printing
L Yi, Y Zhao, Y Li, D Guo, Z Zeng, Z Liu… - Advanced Functional …, 2024 - Wiley Online Library
A novel laser thermal printing technique toward the fabrication of all‐in‐one flexible
intelligent devices is presented in this work, addressing the existing challenges in their …
intelligent devices is presented in this work, addressing the existing challenges in their …
Reaction Induced Conformational Change in Polyindole: Polyindole/PVA Film as Biomimetic Sensors of Temperature and Electrical Energetic Conditions
Conducting polymers can mimic the sensing characteristics of biological muscles through
utilizing their unique electrochemical reactions. As these reactions occur, alterations in …
utilizing their unique electrochemical reactions. As these reactions occur, alterations in …
Investigation into the high electroactuation performance of a gelatinous biomimetic artificial muscle constructed using glycyrrhiza polysaccharide cross-linking …
J Yang, T Sha, T Yu, J Yao, K Wei, Z Jiang… - Sensors and Actuators A …, 2023 - Elsevier
Abstract The Gelatinous Biomimetic Artificial Muscle (GBAM) is a novel actuator composed
of intelligent polymer material capable of undergoing stretching, bending, tightening, or …
of intelligent polymer material capable of undergoing stretching, bending, tightening, or …
Bio-mimetic sensing characteristics of differently synthesized polyanilines towards the surrounding electrical and chemical energetic conditions
Conducting polymers are recognized as responsive gels capable of responding to the
changes in their surrounding environment through their unique electrochemical response …
changes in their surrounding environment through their unique electrochemical response …