Pulse Duration and Wavelength Effects of Laser Ablation on the Oxidation, Hydrolysis, and Aging of Aluminum Nanoparticles in Water

Pulse Duration and Wavelength Effects of Laser Ablation on the Oxidation, Hydrolysis, and Aging of Aluminum Nanoparticles in Water

We analyzed the formation of the aluminum (Al) nanoparticles (NPs) with triangular shape obtained by ablating Al bulk in liquid using pulses with different durations (5 ns, 200 ps, and 30 fs) and wavelengths (355 nm, 800 nm, and 1064 nm). We report three stages of synthesis and aging of Al NPs: Form...

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Main Authors: Ke Zhang, Dmitry S. Ivanov, Rashid A. Ganeev, Ganjaboy S. Boltaev, Pandiyalackal S. Krishnendu, Subhash C. Singh, Martin E. Garcia, Irina N. Zavestovskaya, Chunlei Guo
Format: Article
Language:English
Published: MDPI AG 2019-05-01
Series:Nanomaterials
Subjects:
pulsed laser ablation
aluminum
alumina
aluminum hydroxide
aging
morphology
molecular dynamics
two temperature model
modeling and simulations
Online Access:https://www.mdpi.com/2079-4991/9/5/767
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spelling doaj-713857a1d35b4d9d905e13ed7b7806d82020-11-25T01:37:20ZengMDPI AGNanomaterials2079-49912019-05-019576710.3390/nano9050767nano9050767Pulse Duration and Wavelength Effects of Laser Ablation on the Oxidation, Hydrolysis, and Aging of Aluminum Nanoparticles in WaterKe Zhang0Dmitry S. Ivanov1Rashid A. Ganeev2Ganjaboy S. Boltaev3Pandiyalackal S. Krishnendu4Subhash C. Singh5Martin E. Garcia6Irina N. Zavestovskaya7Chunlei Guo8The Guo China-US Photonics Laboratory, State Key Laboratory of Applied Optics, Changchun Institute of Optics, Fine Mechanics, and Physics, Chinese Academy of Sciences, Changchun 130033, ChinaTheoretical Physics Department, University of Kassel, 34132 Kassel, GermanyThe Guo China-US Photonics Laboratory, State Key Laboratory of Applied Optics, Changchun Institute of Optics, Fine Mechanics, and Physics, Chinese Academy of Sciences, Changchun 130033, ChinaThe Guo China-US Photonics Laboratory, State Key Laboratory of Applied Optics, Changchun Institute of Optics, Fine Mechanics, and Physics, Chinese Academy of Sciences, Changchun 130033, ChinaThe Guo China-US Photonics Laboratory, State Key Laboratory of Applied Optics, Changchun Institute of Optics, Fine Mechanics, and Physics, Chinese Academy of Sciences, Changchun 130033, ChinaThe Guo China-US Photonics Laboratory, State Key Laboratory of Applied Optics, Changchun Institute of Optics, Fine Mechanics, and Physics, Chinese Academy of Sciences, Changchun 130033, ChinaTheoretical Physics Department, University of Kassel, 34132 Kassel, GermanyNational Research Nuclear University MEPhI (Moscow Engineering Physics Institute), 115409 Moscow, RussiaThe Guo China-US Photonics Laboratory, State Key Laboratory of Applied Optics, Changchun Institute of Optics, Fine Mechanics, and Physics, Chinese Academy of Sciences, Changchun 130033, ChinaWe analyzed the formation of the aluminum (Al) nanoparticles (NPs) with triangular shape obtained by ablating Al bulk in liquid using pulses with different durations (5 ns, 200 ps, and 30 fs) and wavelengths (355 nm, 800 nm, and 1064 nm). We report three stages of synthesis and aging of Al NPs: Formation, transformation, and stable stage. The NPs prepared by different pulses are almost identical at the initial stage. The effects of duration and wavelength of the ablation pulses on the aging of NPs are revealed. Pulse duration is determined to be essential for morphological transformation of NPs, while pulse wavelength strongly influences particle sizes. NPs produced by ultra-short pulses have smaller sizes and narrow size distribution. We demonstrate that oxidation and hydrolysis of Al in water are the results of ablation for all pulse durations and wavelengths, which also strongly modify the preferable reaction path of NPs in water, thus affecting the composition and morphology of triangle NPs. The results of modeling of the NPs generation in water due to a 50 ps laser pulse interacting with a thick Al target are presented. Water-based effects in the formation of NPs, their evolution, and solidification are considered from the mechanical and thermophysical points of view. The detailed analysis of the modeling results allowed for determination of the main mechanism responsible for the ablation process followed by the NPs formation.https://www.mdpi.com/2079-4991/9/5/767pulsed laser ablationaluminumaluminaaluminum hydroxideagingmorphologymolecular dynamicstwo temperature modelmodeling and simulations
collection DOAJ
language English
format Article
sources DOAJ
author Ke Zhang
Dmitry S. Ivanov
Rashid A. Ganeev
Ganjaboy S. Boltaev
Pandiyalackal S. Krishnendu
Subhash C. Singh
Martin E. Garcia
Irina N. Zavestovskaya
Chunlei Guo
spellingShingle Ke Zhang
Dmitry S. Ivanov
Rashid A. Ganeev
Ganjaboy S. Boltaev
Pandiyalackal S. Krishnendu
Subhash C. Singh
Martin E. Garcia
Irina N. Zavestovskaya
Chunlei Guo
Pulse Duration and Wavelength Effects of Laser Ablation on the Oxidation, Hydrolysis, and Aging of Aluminum Nanoparticles in Water
Nanomaterials
pulsed laser ablation
aluminum
alumina
aluminum hydroxide
aging
morphology
molecular dynamics
two temperature model
modeling and simulations
author_facet Ke Zhang
Dmitry S. Ivanov
Rashid A. Ganeev
Ganjaboy S. Boltaev
Pandiyalackal S. Krishnendu
Subhash C. Singh
Martin E. Garcia
Irina N. Zavestovskaya
Chunlei Guo
author_sort Ke Zhang
title Pulse Duration and Wavelength Effects of Laser Ablation on the Oxidation, Hydrolysis, and Aging of Aluminum Nanoparticles in Water
title_short Pulse Duration and Wavelength Effects of Laser Ablation on the Oxidation, Hydrolysis, and Aging of Aluminum Nanoparticles in Water
title_full Pulse Duration and Wavelength Effects of Laser Ablation on the Oxidation, Hydrolysis, and Aging of Aluminum Nanoparticles in Water
title_fullStr Pulse Duration and Wavelength Effects of Laser Ablation on the Oxidation, Hydrolysis, and Aging of Aluminum Nanoparticles in Water
title_full_unstemmed Pulse Duration and Wavelength Effects of Laser Ablation on the Oxidation, Hydrolysis, and Aging of Aluminum Nanoparticles in Water
title_sort pulse duration and wavelength effects of laser ablation on the oxidation, hydrolysis, and aging of aluminum nanoparticles in water
publisher MDPI AG
series Nanomaterials
issn 2079-4991
publishDate 2019-05-01
description We analyzed the formation of the aluminum (Al) nanoparticles (NPs) with triangular shape obtained by ablating Al bulk in liquid using pulses with different durations (5 ns, 200 ps, and 30 fs) and wavelengths (355 nm, 800 nm, and 1064 nm). We report three stages of synthesis and aging of Al NPs: Formation, transformation, and stable stage. The NPs prepared by different pulses are almost identical at the initial stage. The effects of duration and wavelength of the ablation pulses on the aging of NPs are revealed. Pulse duration is determined to be essential for morphological transformation of NPs, while pulse wavelength strongly influences particle sizes. NPs produced by ultra-short pulses have smaller sizes and narrow size distribution. We demonstrate that oxidation and hydrolysis of Al in water are the results of ablation for all pulse durations and wavelengths, which also strongly modify the preferable reaction path of NPs in water, thus affecting the composition and morphology of triangle NPs. The results of modeling of the NPs generation in water due to a 50 ps laser pulse interacting with a thick Al target are presented. Water-based effects in the formation of NPs, their evolution, and solidification are considered from the mechanical and thermophysical points of view. The detailed analysis of the modeling results allowed for determination of the main mechanism responsible for the ablation process followed by the NPs formation.
topic pulsed laser ablation
aluminum
alumina
aluminum hydroxide
aging
morphology
molecular dynamics
two temperature model
modeling and simulations
url https://www.mdpi.com/2079-4991/9/5/767
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AT martinegarcia pulsedurationandwavelengtheffectsoflaserablationontheoxidationhydrolysisandagingofaluminumnanoparticlesinwater
AT irinanzavestovskaya pulsedurationandwavelengtheffectsoflaserablationontheoxidationhydrolysisandagingofaluminumnanoparticlesinwater
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