2022
DOI: 10.1016/j.ceramint.2022.06.310
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Anchoring branched Ag nano-islands on Au@CuxO mesoporous nanospheres as dual plasmonic absorbers for efficient photothermal conversion

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Cited by 10 publications
(5 citation statements)
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“…As more Ag nanoparticles formed on the Cu 2 O layer, these products showed major and broad absorption centered at 450~500 nm, which should be attributed to the LSPR effect of Ag nanocrystals, while the plasmonic absorptions of Au and Cu 2 O was dampened. In short, the multiple and absorption character of these products across the UV‐vis region would be helpful for finding important use in light harvesting and energy conversion [17] …”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…As more Ag nanoparticles formed on the Cu 2 O layer, these products showed major and broad absorption centered at 450~500 nm, which should be attributed to the LSPR effect of Ag nanocrystals, while the plasmonic absorptions of Au and Cu 2 O was dampened. In short, the multiple and absorption character of these products across the UV‐vis region would be helpful for finding important use in light harvesting and energy conversion [17] …”
Section: Resultsmentioning
confidence: 99%
“…In short, the multiple and absorption character of these products across the UV-vis region would be helpful for finding important use in light harvesting and energy conversion. [17]…”
Section: Lspr Propertiesmentioning
confidence: 99%
“…The photothermal conversion efficiency of ZFOs was calculated as 34.26% based on the temperature profile cycle (Figure H). Compared with the previously reported photothermal agents, such as heterojunction-structured Ag 2 S/NCs (29%), Au@Cu x O-Ag hybrid nanocomposites (18.3%), and Bi 2 S 3 hollow spheres (31.5%), the ZFOs have better photothermal conversion efficiency. The above results confirmed that the ZFOs with sufficient colorimetric signals, magnetic response intensity, and photothermal conversion efficiency hold tremendous potential in the LFIA system.…”
Section: Resultsmentioning
confidence: 78%
“…It suggested that the thickness of the doping layer was designed to be reasonably thin, which would not significantly dampen the surface plasmon oscillation; 51 iii) dual-band plasmonic absorber typically has a high light harvesting efficiency than the single-band counterpart. 52,53 Therefore, the current Aubased homojunction nanostructure should be considered a promising candidate for plasmonic applications, including sensing, imaging, photothermal conversion, etc.…”
Section: Lspr Propertiesmentioning
confidence: 99%