Evidence for the formation of metallic In after laser irradiation of InP

Cabral, L.; Andrés, Juán; Machado, Thales R.; Picinin, A.; Rino, José Pedro; López‐Richard, V.; Longo, Elson; Gouveia, Amanda Fernandes; Marques, G. E.; Silva, E. Z. da; San-Miguel, Miguel A.

doi:10.1063/1.5109230

Cited by 4 publications

(6 citation statements)

References 79 publications

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“…Therefore, there is still a lack of efficient and easy synthesis to avoid these drawbacks and obtain well-crystallized materials. Very recently, we presented the scale-up of the formation of Ag nanoparticles on α-Ag 2 WO 4 with bactericidal properties via fs laser irradiation 81,82 and the formation of Bi and In nanoparticles on NaBiO 3 83 and InP 84,85 under fs irradiation, respectively. This procedure offers the ability to selectively tailor nanomaterials and, in the above cases, to promote properties such as photoluminescence (PL) emissions, with concomitant applications on photodegradation processes and antimicrobial activity.…”

mentioning

confidence: 99%

Femtosecond-laser-irradiation-induced structural organization and crystallinity of Bi2WO6

Pinatti

Gouveia

Doñate‐Buendía

et al. 2020

Sci Rep

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controlling the structural organization and crystallinity of functional oxides is key to enhancing their performance in technological applications. in this work, we report a strong enhancement of the structural organization and crystallinity of Bi 2 Wo 6 samples synthetized by a microwave-assisted hydrothermal method after exposing them to femtosecond laser irradiation. X-ray diffraction, UVvis and Raman spectroscopies, photoluminescence emissions, energy dispersive spectroscopy, field emission scanning electron microscopy, and transmission electron microscopy were employed to characterize the as-synthetized samples. To complement and rationalize the experimental results, firstprinciples calculations were employed to study the effects of femtosecond laser irradiation. Structural and electronic effects induced by femtosecond laser irradiation enhance the long-range crystallinity while decreasing the free carrier density, as it takes place in the amorphous and liquid states. these effects can be considered a clear cut case of surface-enhanced Raman scattering.Bismuth tungstate, Bi 2 WO 6 (BWO), is an important n-type semiconductor with a narrowband gap energy (E gap ) of 2.8 eV that allows efficient absorption of visible light (λ > 400 nm) and has been widely studied due to its wide range of properties, such as ferroelectricity, piezoelectricity, pyroelectricity, nonlinear dielectric susceptibility, and photoluminescent emissions 1,2 . The multifunctionality of this material has been demonstrated on its photocatalytic activity 3-22 , photocatalytic degradation of drugs 23 , dyes 24-26 alcohols 27 , and phenol 28 , environmental purification, energy conversion 29 , and production of sustainable and combustible compounds 3 . Recently, some works attested this material to be efficient in water splitting for hydrogen generation 30-32 , for shielding against low-energy gamma rays 33 and for CT/IR imaging and photothermal/photodynamic therapy of tumours 34,35 .BWO has an orthorhombic structure and belongs to the Aurivillius family. It is formed by alternating (Bi 2 O 2 ) n 2n+ and perovskite (WO 4 ) n 2n layers 36 , which are composed of (WO 6 ) octahedral layers and (Bi-O-Bi) layers. Their crystal structure can also be described by alternating [Bi 2 O 2 ] 2+ slabs and [WO 4 ] 2− slabs, with oxygen atoms shared between the slabs to create chemical bonds. An important characteristic of this structure is that local environments of both W and Bi cations are highly distorted 37 . The off-centre octahedral distortions are a general feature of the structural chemistry of d 0 metal cations. Each W cation is coordinated with six O atoms to form [WO 6 ] octahedral clusters that are connected to each other by corner-sharing O atoms. The (Bi 2 O 2 ) 2+ layers are sandwiched between (WO 6 ) octahedral layers. From an electronic point of view, BWO presents hybridized valence bands occupied by the Bi 6 s and O 2p states that shift the absorption band edge towards the visible region, with the concomitant appearance of a narrow absorpt...

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confidence: 99%

Femtosecond-laser-irradiation-induced structural organization and crystallinity of Bi2WO6

Pinatti

Gouveia

Doñate‐Buendía

et al. 2020

Sci Rep

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“…This partial AgeBi miscibility was also discussed recently from ab initio DFT calculations [271]. Another study reports a theoretical strategy based also on DFT and molecular dynamics simulations to investigate the effect of laser irradiation on semiconductor materials [272]. This methodology provides insights into the mechanisms of local disordering induced by the laser and conducting to the formation of metallic Ag clusters [273].…”

Section: Ag Np Growth On Ag 2 Wo 4 By Femtosecond Laser Irradiationmentioning

confidence: 76%

Ag2WO4 as a multifunctional material: Fundamentals and progress of an extraordinarily versatile semiconductor

Gouveia

Roca

Macedo

et al. 2022

Journal of Materials Research and Technology

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“…Previous results suggest that lattice modification occurs when T e and N e surpass a threshold during LI/EI. 31,41,45,46 To understand the mechanism of the heat modification, we calculated the pair correlation function g(r), the mean square displacement (MSD), and the diffusion coefficient (D). An analysis of the g(r) profiles applies to crystalline and amorphous materials to obtain deep insight into the integrity of the lattice structure during the LI/EI of the different polymorphs.…”

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confidence: 99%

“…A pioneering effort involved the direct observation of the formation of Ag nanoparticles (NPs) on the surface of various silver-based materials under EI, such as Ag 2 WO 4 , , β-Ag 2 WO 4 , , β-Ag 2 MoO 4 , , Ag 3 PO 4 , β-AgVO 3 , Ag 2 CrO 4 , and AgX (X = Cl, Br, and I) crystals and additionally, In NPs and Bi NPs in InP , and NaBiO 3 , , respectively. The ability to conduct in situ atomic-scale observations combined with simulations based on first-principles calculations in nanomaterials enables the atomic-scale recording of events, providing new insights into the mechanism of the Ag NP growth process.…”

mentioning

confidence: 99%

“…These changes arise from electron–electron scattering and electron–phonon coupling, providing energy to the lattice and resulting in crystal heating. Previous results suggest that lattice modification occurs when T e and N e surpass a threshold during LI/EI. ,,, To understand the mechanism of the heat modification, we calculated the pair correlation function g ( r ), the mean square displacement (MSD), and the diffusion coefficient ( D ).…”

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confidence: 99%

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Disentangling the Effects of Laser and Electron Irradiation on AgX (X = Cl, Br, and I): Insights from Quantum Chemical Calculations

Cabral,

Leite,

Longo

et al. 2024

Nano Lett.

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The effects on the lattice structure and electronic properties of different polymorphs of silver halide, AgX (X = Cl, Br, and I), induced by laser irradiation (LI) and electron irradiation (EI) are investigated using a first-principles approach, based on the electronic temperature (T e ) within a two-temperature model (TTM) and by increasing the total number of electrons (N e ), respectively. Ab initio molecular dynamics (AIMD) simulations provide a clear visualization of how T e and N e induce a structural and electronic transformation process during LI/EI. Our results reveal the diffusion processes of Ag and X ions, the amorphization of the AgX lattices, and a straightforward interpretation of the time evolution for the formation of Ag and X nanoclusters under high values of T e and N e . Overall, the present work provides fine details of the underlying mechanism of LI/EI and promises to be a powerful toolbox for further cross-scale modeling of other semiconductors.

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Evidence for the formation of metallic In after laser irradiation of InP

Cited by 4 publications

References 79 publications

Femtosecond-laser-irradiation-induced structural organization and crystallinity of Bi2WO6

Femtosecond-laser-irradiation-induced structural organization and crystallinity of Bi2WO6

Ag2WO4 as a multifunctional material: Fundamentals and progress of an extraordinarily versatile semiconductor

Disentangling the Effects of Laser and Electron Irradiation on AgX (X = Cl, Br, and I): Insights from Quantum Chemical Calculations

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