Room‐Temperature Laser Synthesis in Liquid of Oxide, Metal‐Oxide Core‐Shells, and Doped Oxide Nanoparticles

Amendola, Vincenzo; Amans, David; Ishikawa, Yoshie; Koshizaki, Naoto; Scirè, Salvatore; Compagnini, Giuseppe; Reichenberger, Sven; Barcikowski, Stephan

doi:10.1002/chem.202000686

Cited by 217 publications

(190 citation statements)

References 358 publications

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“…Laser synthesis of colloids (LSC) is a method used to produce colloidal nanoparticles by laser ablating the surface of a solid material, which is immersed in a liquid (Zhang et al 2017), (Amendola et al 2020). The main advantages of the method are its straightforward experimental design, a high variety of applicable combinations of solid material and liquid, and the absent need of using ligands to control the nanoparticle formation.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of gold, platinum, and gold-platinum alloy nanoparticle colloids with high-power megahertz-repetition-rate lasers: the importance of the beam guidance method

et al. 2021

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Nanoparticles of noble metals and their alloys are of particular interest for biomedicine and catalysis applications. The method of laser ablation of bulk metals in liquids gives facile access to such particles as high-purity colloids and is already used in industrial research. However, the method still lacks sufficient productivity for industrial implementation into series production. The use of innovative laser technology may help to further disseminate this colloid synthesis method in the near future. Ultrashort-pulsed lasers with high powers and megahertz-repetition-rates became available recently, but place high demands on the accurate optical laser pulse delivery on the target. Full lateral pulse separation is necessary to avoid a reduction of nanoparticle productivity due to pulse shielding. In this study, we compare flexible but rather slow galvanometer scanning with much faster but more expensive polygon-wheel scanning in their performance in the production of colloidal nanoparticles by laser ablation in liquid. Both beam guidance technologies are applied in the laser ablation of gold, platinum, and a gold-rich platinum alloy in micromolar saline water. We found that the dimensions of the scan pattern are crucial. A threshold pattern length exists, at which one scan technology becomes more productive than the other one. In addition, a much lower productivity was found for the ablation of gold compared to that of platinum. Alloying gold with only 10 at.% of platinum improved the productivity nearly to the level of platinum, reaching 8.3 g/h.

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Section: Introductionmentioning

confidence: 99%

Synthesis of gold, platinum, and gold-platinum alloy nanoparticle colloids with high-power megahertz-repetition-rate lasers: the importance of the beam guidance method

et al. 2021

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“…Laser synthesis of colloids, powered by robust, high-power lasers, appears to be a key enabling process that is chemically clean and environmentally friendly, and appealing [ 23 , 24 ] for industrial manufacturing of functional nanomaterials while being useful in many different areas, such as: hydrogen generation [ 16 ], hydrogen storage [ 25 ], heterogeneous catalysis using colloidal high-entropy alloy NPs [ 26 , 27 ], anticancer [ 28 ] and antimicrobial [ 29 ] research, drug monitoring [ 30 ], additive manufacturing applications [ 31 , 32 ], and nonlinear nanophotonics [ 33 ]. In addition, NPs prepared by the Laser Ablation in Liquids (LAL) have been recently used for various and unique applications like friction reduction [ 34 ], solar nanofluids [ 35 , 36 ], optical limiting devices [ 37 , 38 ] and so on.…”

Section: Introductionmentioning

confidence: 99%

Nanoparticles Engineering by Pulsed Laser Ablation in Liquids: Concepts and Applications

et al. 2020

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Laser synthesis emerges as a suitable technique to produce ligand-free nanoparticles, alloys and functionalized nanomaterials for catalysis, imaging, biomedicine, energy and environmental applications. In the last decade, laser ablation and nanoparticle generation in liquids has proven to be a unique and efficient technique to generate, excite, fragment and conjugate a large variety of nanostructures in a scalable and clean way. In this work, we give an overview on the fundamentals of pulsed laser synthesis of nanocolloids and new information about its scalability towards selected applications. Biomedicine, catalysis and sensing are the application areas mainly discussed in this review, highlighting advantages of laser-synthesized nanoparticles for these types of applications and, once partially resolved, the limitations to the technique for large-scale applications.

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“…Such growth and oxide formation processes have recently been reviewed by Zhang et al addressing the ripening (and seed-growth) behaviour during laser ablation in liquids, in particular of oxidationsensitive material, 64 and Amendola et al comprehensively summarizing the laser synthesis of oxide particles. 65 Transmission electron micrographs in Fig. 3 of the collected particles generally confirm the broad size distribution, displaying small particles and agglomerates thereof in the 10 nm range as well as large solid spheres.…”

Section: Particle Morphologymentioning

confidence: 60%

In situ speciation and spatial mapping of Zn products during pulsed laser ablation in liquids (PLAL) by combined synchrotron methods

et al. 2020

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Room‐Temperature Laser Synthesis in Liquid of Oxide, Metal‐Oxide Core‐Shells, and Doped Oxide Nanoparticles

Cited by 217 publications

References 358 publications

Synthesis of gold, platinum, and gold-platinum alloy nanoparticle colloids with high-power megahertz-repetition-rate lasers: the importance of the beam guidance method

Synthesis of gold, platinum, and gold-platinum alloy nanoparticle colloids with high-power megahertz-repetition-rate lasers: the importance of the beam guidance method

Nanoparticles Engineering by Pulsed Laser Ablation in Liquids: Concepts and Applications

In situ speciation and spatial mapping of Zn products during pulsed laser ablation in liquids (PLAL) by combined synchrotron methods

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