MXene-based textile sensors for wearable applications
Textile-based sensors in the form of a wearable computing device that can be attached to or
worn on the human body not only can transmit information but also can be used as a smart …
worn on the human body not only can transmit information but also can be used as a smart …
MXene sensors based on optical and electrical sensing signals: from biological, chemical, and physical sensing to emerging intelligent and bionic devices
Sensing devices are key nodes for information detection, processing, and conversion and
are widely applied in different fields such as industrial production, environmental monitoring …
are widely applied in different fields such as industrial production, environmental monitoring …
Bioinspired, high-strength, and flexible MXene/aramid fiber for electromagnetic interference shielding papers with joule heating performance
J Wang, X Ma, J Zhou, F Du, C Teng - ACS nano, 2022 - ACS Publications
High-strength, flexible, and multifunctional characteristics are highly desirable for
electromagnetic interference (EMI) shielding materials in the field of electric devices. In this …
electromagnetic interference (EMI) shielding materials in the field of electric devices. In this …
Ultra-compact MXene fibers by continuous and controllable synergy of interfacial interactions and thermal drawing-induced stresses
Abstract Recent advances in MXene (Ti3C2T x) fibers, prepared from electrically conductive
and mechanically strong MXene nanosheets, address the increasing demand of emerging …
and mechanically strong MXene nanosheets, address the increasing demand of emerging …
In Situ Loading of Polypyrrole onto Aramid Nanofiber and Carbon Nanotube Aerogel Fibers as Physiology and Motion Sensors
J Huang, J Li, X Xu, L Hua, Z Lu - ACS nano, 2022 - ACS Publications
Nanocomposite conductive fiber has been newly developed as a lightweight material with
high flexibility and strong weavability, which can meet the requirements of flexible wearable …
high flexibility and strong weavability, which can meet the requirements of flexible wearable …
Interlocking‐Governed Ultra‐Strong and Highly Conductive MXene Fibers Through Fluidics‐Assisted Thermal Drawing
High‐performance MXene fibers are always of significant interest for flexible textile‐based
devices. However, achieving high mechanical property and electrical conductivity remains …
devices. However, achieving high mechanical property and electrical conductivity remains …
High-strength, super-tough, and durable nacre-inspired MXene/heterocyclic aramid nanocomposite films for electromagnetic interference shielding and thermal …
J Xiong, R Ding, Z Liu, H Zheng, P Li, Z Chen… - Chemical Engineering …, 2023 - Elsevier
Abstract 2D transition-metal carbides, known as MXenes, are among the most promising
electromagnetic interference (EMI) shielding materials due to their outstanding metal-like …
electromagnetic interference (EMI) shielding materials due to their outstanding metal-like …
Fiber-based noncontact sensor with Stretchability for underwater wearable sensing and VR applications
The rapid development of artificial intelligent wearable devices has led to an increasing
need for seamless information exchange between humans, machines, and virtual spaces …
need for seamless information exchange between humans, machines, and virtual spaces …
Highly conductive, hydrophobic, and acid/alkali-resistant MXene@ PVDF hollow core-shell fibers for efficient electromagnetic interference shielding and Joule heating
L Ye, LX Liu, G Yin, Y Liu, Z Deng, CZ Qi… - Materials Today …, 2023 - Elsevier
To endow transition metal carbide (MXene) fibers with satisfactory chemical resistances,
high electrical conductivity and enhanced ductility, multifunctional hollow core-shell fibers …
high electrical conductivity and enhanced ductility, multifunctional hollow core-shell fibers …
Superhydrophobic MXene-based fabric with electromagnetic interference shielding and thermal management ability for flexible sensors
J Peng, H Cheng, J Liu, W Han, T Wu, Y Yin… - Advanced Fiber …, 2023 - Springer
Smart fabrics have made remarkable progress in the field of wearable electronics because
of their unique structure, flexibility and breathability, which are highly desirable with …
of their unique structure, flexibility and breathability, which are highly desirable with …