Ultra-endurance coaxial-fiber stretchable sensing systems fully powered by sunlight
Multifunctional integrated devices represent the development direction of future wearable
smart electronics. Increased efforts have recently been devoted to developing fiber-shaped …
smart electronics. Increased efforts have recently been devoted to developing fiber-shaped …
All-in-one stretchable coaxial-fiber strain sensor integrated with high-performing supercapacitor
Ever-increasing attempts have recently been focused on exploring stretchable fiber-shaped
integrated wearables, owing to their multi-functionalities and mechanical flexibilities …
integrated wearables, owing to their multi-functionalities and mechanical flexibilities …
In-situ forming ultra-mechanically sensitive materials for high-sensitivity stretchable fiber strain sensors
R Yu, C Wang, X Du, X Bai, Y Tong… - National Science …, 2024 - academic.oup.com
Fiber electronics with flexible and weavable features can be easily integrated into textiles for
wearable applications. However, due to small sizes and curved surfaces of fiber materials, it …
wearable applications. However, due to small sizes and curved surfaces of fiber materials, it …
Thermally drawn stretchable electrical and optical fiber sensors for multimodal extreme deformation sensing
Highly stretchable fiber sensors have attracted significant interest recently due to their
applications in wearable electronics, human–machine interfaces, and biomedical …
applications in wearable electronics, human–machine interfaces, and biomedical …
Stretchable helical fibers with skin-core structure for pressure and proximity sensing
Q Liang, D Zhang, Y Wu, X Qu, Y Jia, S Chen, H Wang… - Nano Energy, 2023 - Elsevier
As a multifunctional monitoring platform based on the human environment, fiber-based
capacitive sensors are promising wearable electronic devices. However, it is of great …
capacitive sensors are promising wearable electronic devices. However, it is of great …
Controllably enhancing stretchability of highly sensitive fiber-based strain sensors for intelligent monitoring
X Liao, W Wang, L Wang, K Tang… - ACS applied materials & …, 2018 - ACS Publications
Functional strain sensing is essential to develop health monitoring and Internet of Things.
The performance of either narrow sensing range or low sensitivity restricts strain sensors in …
The performance of either narrow sensing range or low sensitivity restricts strain sensors in …
Intrinsically stretchable multi-functional fiber with energy harvesting and strain sensing capability
As future generations of wearable electronics are expected to be directly worn, fiber-based
electronics are expected to become increasingly more important in the coming years, as …
electronics are expected to become increasingly more important in the coming years, as …
Design of helically double-leveled gaps for stretchable fiber strain sensor with ultralow detection limit, broad sensing range, and high repeatability
Flexible strain sensors have attracted extensive attention in electronic skins and health
monitoring systems. To date, it remains a great challenge for the development of a …
monitoring systems. To date, it remains a great challenge for the development of a …
Ultrastretchable multilayered fiber with a hollow-monolith structure for high-performance strain sensor
J Gao, X Wang, W Zhai, H Liu, G Zheng… - … applied materials & …, 2018 - ACS Publications
As a crucial component of data terminal acquisition devices, flexible strain sensor has
shown promising applications in numerous fields, such as healthcare, bodynet, the …
shown promising applications in numerous fields, such as healthcare, bodynet, the …
A stretchable fiber nanogenerator for versatile mechanical energy harvesting and self-powered full-range personal healthcare monitoring
Wearable electronics have gained dramatic development in recent years, owing to the
advancement in flexible/stretchable electronics, and achieved considerable progress in …
advancement in flexible/stretchable electronics, and achieved considerable progress in …