Polarization-driven self-organization of silver nanoparticles in 1D and 2D subwavelength gratings for plasmonic photocatalysis

Baraldi, Giorgio; Bakhti, Saïd; Liu, Z; Reynaud, Stéphanie; Lefkir, Yaya; Vocanson, Francis; Destouches, Nathalie

doi:10.1088/1361-6528/28/3/035302

Cited by 7 publications

(9 citation statements)

References 47 publications

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“…Hexagonal self-organisation of nanoparticles was observed by irradiating TiO2 thin films and silver nanoparticles with green CW circularly polarised light [39]. It is suggested that the mesoporous characteristic of TiO2 facilitates the movement of nanoparticles.…”

Section: Formation Of Lipss In Hexagonal Arrangementsmentioning

confidence: 99%

Triangular laser-induced submicron textures for functionalising stainless steel surfaces

Romano

García‐Girón

Penchev

et al. 2018

Applied Surface Science

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Section: Formation Of Lipss In Hexagonal Arrangementsmentioning

confidence: 99%

Triangular laser-induced submicron textures for functionalising stainless steel surfaces

Romano

García‐Girón

Penchev

et al. 2018

Applied Surface Science

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“…The mesoporous titania film is elaborated by a sol-gel process. The sol contains titanium tetraisopropoxide (TTIP, Aldrich; 97%), acetylacetone (AcAc, Aldrich; 99%), hydrochloric acid (HCl, Roth; 37%), ethanol (EtOH, Carlo Erba; absolute), Pluronic P123 ((PEO) 20 (PPO) 70 (PEO) 20 , Aldrich; MW: 5000) and de-ionized water (H 2 O) with the following molar ratios: TTIP/P123/ethanol/HCl/H 2 O/AcAc = 1:0.025:28.5:0.015:29.97:0.5. Pluronic P123 is a symmetric triblock copolymer constituted of poly(ethylene oxide)(PEO) and poly (propylene oxide) (PPO).…”

Section: Methodsmentioning

confidence: 99%

Three-Dimensional Self-Organization in Nanocomposite Layered Systems by Ultrafast Laser Pulses

et al. 2017

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Controlling plasmonic systems with nanometre resolution in transparent films and their colors over large non-planar areas is a key issue for spreading their use in various industrial fields. Using light to direct self-organization mechanisms provides high-speed and flexible processes to meet this challenge. Here, we describe a route for the laser-induced self-organization of metallic nanostructures in 3D. Going beyond the production of planar nanopatterns, we demonstrate that ultrafast laser-induced excitation combined with non-linear feedback mechanisms in a nanocomposite thin film can lead to 3D self-organized nanostructured films. The process, which can be extended to complex layered composite systems, produces highly uniform large-area nanopatterns. We show that 3D self-organization originates from the simultaneous excitation of independent optical modes at different depths in the film and is activated by the plasmon-induced charge separation and thermally-induced NP growth mechanisms. This laser color marking technique enables multiplexed optical image encoding and the generated nanostructured Ag NPs:TiO 2 films offer great promise for applications in solar energy harvesting, photocatalysis or photochromic devices. KeywordsUltrafast photonics; Laser-induced self-organization; Nanostructured thin film; plasmonic nanomaterials; plasmonic colors Controlling metallic nanostructures over large non-planar areas with high flexibility and speed is of strategic importance for developing industrial applications of plasmonic systems.

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“…To solve this issue, a well-optimized laser treatment is particularly promising, namely because of the control possibilities that lasers can provide. In fact, lasers are known to be a powerful surface structuring tool [9] that can also be used for growing and tailoring the properties of nano-objects [10,11], and, particularly, for nanoparticle formation in solid matrices [12].…”

Section: Introductionmentioning

confidence: 99%

“…In this case, additional possibilities related with nanoparticle presence [13,14] and with laser beam focusing in the in bulk were explored [15]. The photocontrolled organization of metallic NPs in T iO 2 and SiO 2 films was also demonstrated [12]. Additionally, self-organized nanostructures were shown to be formed by scanning CW laser irradiation [16] and even femtosecond laser pulses [17].…”

Section: Introductionmentioning

confidence: 99%

Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering

Andreeva

Koval

Sergeev

et al. 2020

Optics and Lasers in Engineering

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In this article, we propose a novel approach for fabricating of dielectric nanogratings via direct laser writing. Possibilities of a well-controlled ultrashort laser recording of Ag-SiO 2 nanocomposite gratings and their optical properties are examined. The mechanisms of laser processing involve silver nanoparticle growth in nanoporous silica glass films and laser interferencebased formation of a periodic grating-like nanorelief. It is shown that laser energy should stay below a surface "grooves" formation threshold for laserinscription of the interference-based grating. Otherwise, another periodic structure oriented parallel to the incident laser polarization appears to erase the interference pattern. The parameter windows required for a controlled fabrication of the obtained structures are determined. The required thresholds decay with the number of applied laser pulses is explained by a similarity in the roles of the absorbing nanoparticles and surface defect accumulation typically leading to such dependencies. The optical properties of the obtained gratings are shown to depend on the angle between the incidence plane and the grating direction. When these directions coincide, a signal enhancement with a period-dependent blue-shift is revealed in the diffuse scattering spectra. When these directions are perpendicular, the signal is less enhanced, and a red shift is observed. The observed results are promising in short laser fabrication of different optical components, such as, reflective optical filters.

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Polarization-driven self-organization of silver nanoparticles in 1D and 2D subwavelength gratings for plasmonic photocatalysis

Cited by 7 publications

References 47 publications

Triangular laser-induced submicron textures for functionalising stainless steel surfaces

Triangular laser-induced submicron textures for functionalising stainless steel surfaces

Three-Dimensional Self-Organization in Nanocomposite Layered Systems by Ultrafast Laser Pulses

Picosecond laser writing of Ag−SiO2 nanocomposite nanogratings for optical filtering

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