2018
DOI: 10.1021/acsomega.8b02022
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Tuning Optical Limiting of Heterosized AuNPs and Fullerene by Countable Electrochemical Assembly

Abstract: Tuning optical limiting was achieved based on the nanostructural and synergistic effects of heterosized gold nanoparticles and fullerene on electrochemical assembly. In particular, with thicknesses of 200, 1, and 10 nm, heterosized AuNP multilayers with periodical pairs of layers present a superior threshold of 0.59 J cm –2 to monosized AuNP films with the values of 0.89–2.55 J cm –2 , which was further significantly enhanced by the introduction of C 70… Show more

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Cited by 3 publications
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“…This unique behavior was attributed to the selective activation of 3- and 6- positions of carbazoles and exhibited sensitivity to the potential applied: +1.0 V (vs. Ag/AgCl) favored more dimerization while +1.2 V also led to oligomerization [ 83 ]. The obtained organic or hybrid films benefited from internal layered structures and unlocking optical limiting applications [ 84 , 85 ]. Following this concept, recent efforts to potentialize other electrochemical dimerization reactions for functional films have been reported, opening promising perspectives for multifunctional systems [ 86 ].…”
Section: Weak Polyelectrolytes Layers For Stimuli-responsive Surfacesmentioning
confidence: 99%
“…This unique behavior was attributed to the selective activation of 3- and 6- positions of carbazoles and exhibited sensitivity to the potential applied: +1.0 V (vs. Ag/AgCl) favored more dimerization while +1.2 V also led to oligomerization [ 83 ]. The obtained organic or hybrid films benefited from internal layered structures and unlocking optical limiting applications [ 84 , 85 ]. Following this concept, recent efforts to potentialize other electrochemical dimerization reactions for functional films have been reported, opening promising perspectives for multifunctional systems [ 86 ].…”
Section: Weak Polyelectrolytes Layers For Stimuli-responsive Surfacesmentioning
confidence: 99%