Cu-Modified La₂Si₂O₇/TiO₂ composite materials: preparation, characterization and photothermal properties

Abstract: Cu-modified La2Si2O7/TiO2 composite materials were prepared by molten salt method and solid-phase reduction strategy. Due to the surface plasmon resonance (SPR) of copper, the optical response from the UV to...

“…The addition of nano TiO 2 and TiN not only changes the structure of the graphene layer but also endows it with light response function. When the frequency of incident light is consistent with the intrinsic frequency of free electrons on the metal surface, a plasma resonance effect is generated on the local surface of the metal . Utilizing this property of TiO 2 and TiN, it can be used as a metal nanoheat source, and a specific frequency of incident light causes a plasma resonance effect on the surface of TiO 2 and TiN.…”

“…When the frequency of incident light is consistent with the intrinsic frequency of free electrons on the metal surface, a plasma resonance effect is generated on the local surface of the metal. 37 Utilizing this property of TiO 2 and TiN, it can be used as a metal nanoheat source, and a specific frequency of incident light causes a plasma resonance effect on the surface of TiO 2 and TiN. Figure 3d shows that the nanometal absorbs the incident light to generate heat and rapidly conducts it using graphene as the medium, causing curvature changes in the sensor.…”

Preparation of Graphene Thermally Responsive Double-Layer Composite Fibers via Dry Spinning for Wearable Intelligent Sensors

“…The addition of nano TiO 2 and TiN not only changes the structure of the graphene layer but also endows it with light response function. When the frequency of incident light is consistent with the intrinsic frequency of free electrons on the metal surface, a plasma resonance effect is generated on the local surface of the metal . Utilizing this property of TiO 2 and TiN, it can be used as a metal nanoheat source, and a specific frequency of incident light causes a plasma resonance effect on the surface of TiO 2 and TiN.…”

“…When the frequency of incident light is consistent with the intrinsic frequency of free electrons on the metal surface, a plasma resonance effect is generated on the local surface of the metal. 37 Utilizing this property of TiO 2 and TiN, it can be used as a metal nanoheat source, and a specific frequency of incident light causes a plasma resonance effect on the surface of TiO 2 and TiN. Figure 3d shows that the nanometal absorbs the incident light to generate heat and rapidly conducts it using graphene as the medium, causing curvature changes in the sensor.…”

Preparation of Graphene Thermally Responsive Double-Layer Composite Fibers via Dry Spinning for Wearable Intelligent Sensors