Wen‐Hao Hsu
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View article: Biocompatible Sensors: Biocompatible Soft Fluidic Strain and Force Sensors for Wearable Devices (Adv. Funct. Mater. 7/2019)
Biocompatible Sensors: Biocompatible Soft Fluidic Strain and Force Sensors for Wearable Devices (Adv. Funct. Mater. 7/2019) Open
In article number 1807058, Robert J. Wood and co-workers describe a silicone-based strain and force sensor composed of a novel biocompatible conductive liquid (potassium iodide and glycerol solution). This solution is not only safe to the …
View article: Biocompatible Soft Fluidic Strain and Force Sensors for Wearable Devices
Biocompatible Soft Fluidic Strain and Force Sensors for Wearable Devices Open
Fluidic soft sensors have been widely used in wearable devices for human motion capturing. However, thus far, the biocompatibility of the conductive liquid, the linearity of the sensing signal, and the hysteresis between the loading and re…
View article: Enhanced image quality of OLED transparent display by cholesteric liquid crystal back-panel
Enhanced image quality of OLED transparent display by cholesteric liquid crystal back-panel Open
The transparent active-matrix organic light-emitting diode (AM-OLED), which is a self-luminous polarizer-free display, is regarded as one of the most potential candidate of high-transparency transparent display. However, the image quality …
View article: Sensory enhancing insoles improve athletic performance during a hexagonal agility task
Sensory enhancing insoles improve athletic performance during a hexagonal agility task Open
Athletes incorporate afferent signals from the mechanoreceptors of their plantar feet to provide information about posture, stability, and joint position. Sub-threshold stochastic resonance (SR) sensory enhancing insoles have been shown to…
View article: Sensory Enhancing Insoles Modify Gait during Inclined Treadmill Walking with Load
Sensory Enhancing Insoles Modify Gait during Inclined Treadmill Walking with Load Open
The increased stride time and stride length variability may compromise the stability of gait during and after vigorous walking. However, participants may compensate by increasing double support time and stride width variability to maintain…
View article: Anchoring energy enhancement and pretilt angle control of liquid crystal alignment on polymerized surfaces
Anchoring energy enhancement and pretilt angle control of liquid crystal alignment on polymerized surfaces Open
We demonstrate enhanced surface anchoring energy and control of pretilt angle in a nematic liquid crystal cell with vertical alignment and polymerized surfaces (PS-VA). The polymerized surfaces are formed by ultraviolet (UV) irradiation-in…