Laser‐induced graphene strain sensors produced by ultraviolet irradiation of polyimide
Advanced Functional Materials, 2018•Wiley Online Library
Laser‐induced graphene (LIG) can be obtained by irradiation of a polymer by a laser
source. The present work demonstrates that it is possible to obtain this kind of material using
an ultraviolet laser instead of the typical infrared source. Using this approach, a fourfold
decrease in the penetration depth (5 µm) is achieved, while the spatial resolution is doubled.
Electromechanical strain LIG sensors are patterned in polyimide substrates with different
thicknesses and their performance to strain, bending, and force inputs is measured. A low …
source. The present work demonstrates that it is possible to obtain this kind of material using
an ultraviolet laser instead of the typical infrared source. Using this approach, a fourfold
decrease in the penetration depth (5 µm) is achieved, while the spatial resolution is doubled.
Electromechanical strain LIG sensors are patterned in polyimide substrates with different
thicknesses and their performance to strain, bending, and force inputs is measured. A low …
Abstract
Laser‐induced graphene (LIG) can be obtained by irradiation of a polymer by a laser source. The present work demonstrates that it is possible to obtain this kind of material using an ultraviolet laser instead of the typical infrared source. Using this approach, a fourfold decrease in the penetration depth (5 µm) is achieved, while the spatial resolution is doubled. Electromechanical strain LIG sensors are patterned in polyimide substrates with different thicknesses and their performance to strain, bending, and force inputs is measured. A low‐cost arterial pulse wave monitor is built, exploring the high force sensitivity of the sensors produced on the thinner substrates.
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