Recent advances of micro-nanofiber materials for rechargeable zinc-air batteries
Y Zhang, J Wang, M Alfred, P Lv, F Huang, Y Cai… - Energy Storage …, 2022 - Elsevier
Zinc-air batteries (ZABs) have attracted extensive attention as the next-generation energy
storage device for electric vehicles and wearable electronic devices. However, several …
storage device for electric vehicles and wearable electronic devices. However, several …
Fluorescent fiber-shaped aqueous zinc-ion batteries for bifunctional multicolor-emission/energy-storage textiles
F Liu, S Xu, W Gong, K Zhao, Z Wang, J Luo, C Li… - ACS …, 2023 - ACS Publications
Wearable smart textiles are natural carriers to enable imperceptible and highly permeable
sensing and response to environmental conditions via the system integration of multiple …
sensing and response to environmental conditions via the system integration of multiple …
Electronic fibers/textiles for health‐monitoring: fabrication and application
The requirements for comfort, multifunctionality, and aesthetic value of wearable electronics
have increased owing to the development of smart wearables. Traditional wearable …
have increased owing to the development of smart wearables. Traditional wearable …
MoS2‐Based All‐Purpose Fibrous Electrode and Self‐Powering Energy Fiber for Efficient Energy Harvesting and Storage
Here an all‐purpose fibrous electrode based on MoS2 is demonstrated, which can be
employed for versatile energy harvesting and storage applications. In this coaxial electrode …
employed for versatile energy harvesting and storage applications. In this coaxial electrode …
An ultraflexible polyurethane yarn-based wearable strain sensor with a polydimethylsiloxane infiltrated multilayer sheath for smart textiles
Waterproof fiber-based strain sensors with a high gauge factor and outstanding stability are
essential for smart textiles, wearable devices and biomedical electronics. In this work, we …
essential for smart textiles, wearable devices and biomedical electronics. In this work, we …
The rise of fiber electronics
As a new direction in applied chemistry, fiber electronics allow device configuration to
evolve from three to two dimensions and then to one dimension. The reduction in dimension …
evolve from three to two dimensions and then to one dimension. The reduction in dimension …
[HTML][HTML] Smart electronic textiles for wearable sensing and display
Increasing demand of using everyday clothing in wearable sensing and display has
synergistically advanced the field of electronic textiles, or e-textiles. A variety of types of e …
synergistically advanced the field of electronic textiles, or e-textiles. A variety of types of e …
Weavable and highly efficient organic light-emitting fibers for wearable electronics: a scalable, low-temperature process
Fiber-based wearable displays, one of the most desirable requisites of electronic textiles (e-
textiles), have emerged as a technology for their capability to revolutionize textile and …
textiles), have emerged as a technology for their capability to revolutionize textile and …
Graphene and other 2D colloids: liquid crystals and macroscopic fibers
Two‐dimensional colloidal nanomaterials are running into renaissance after the
enlightening researches of graphene. Macroscopic one‐dimensional fiber is an optimal …
enlightening researches of graphene. Macroscopic one‐dimensional fiber is an optimal …
Wearable strain sensing textile based on one-dimensional stretchable and weavable yarn sensors
Flexible, wearable, and even stretchable sensors are the key components of smart
electronic textiles. However, most reported flexible and wearable sensors for wearable …
electronic textiles. However, most reported flexible and wearable sensors for wearable …