The Second Laser Revolution in Chemistry: Emerging Laser Technologies for Precise Fabrication of Multifunctional Nanomaterials and Nanostructures

Manshina, Alina A.; Tumkin, Ilya I.; Khairullina, Evgeniia M.; Mizoshiri, Mizue; Ostendorf, Andreas; Kulinich, Sergei A.; Makarov, Sergey; Kuchmizhak, Aleksandr A.; Gurevich, Evgeny L.

doi:10.1002/adfm.202405457

Adv Funct Materials

2024

DOI: 10.1002/adfm.202405457

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The Second Laser Revolution in Chemistry: Emerging Laser Technologies for Precise Fabrication of Multifunctional Nanomaterials and Nanostructures

Alina A. Manshina,

Ilya I. Tumkin,

Evgeniia M. Khairullina

et al.

Abstract: The use of photons to directly or indirectly drive chemical reactions has revolutionized the field of nanomaterial synthesis resulting in appearance of new sustainable laser chemistry methods for manufacturing of micro‐ and nanostructures. The incident laser radiation triggers a complex interplay between the chemical and physical processes at the interface between the solid surface and the liquid or gas environment. In such a multi‐parameter system, the precise control over the resulting nanostructures is not … Show more

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2024

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Cited by 10 publications

References 496 publications

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Pulse Duration Dependent Formation of Laser‐Induced Periodic Surface Structures in Atomic Layer Deposited MoS₂

Becher,

Ullrich,

Jagosz

et al. 2024

Adv Materials Inter

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In this paper, the formation of laser‐induced periodic surface structures (LIPSS) on atomic‐layer deposited MoS2 layers are studied experimentally. The process parameters (laser fluence and the pulse overlap) corresponding to formation of low‐ and high‐spatial frequency LIPSS as well as ablation and modification of the layers are identified for different pulse durations in the range from 0.2 to 10 ps. The role of the temperature accumulation is evaluated by changing the repetition rate from 0.2 to 2 MHz. The negative accumulation effect, i.e., the ablation of the layers becomes more difficult at higher laser pulse overlaps, is also observed. A simple model explaining the transition between different types of the LIPSS and the decrease of the ablation efficiency with the pulse overlap is suggested.

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Pulse Duration Dependent Formation of Laser‐Induced Periodic Surface Structures in Atomic Layer Deposited MoS₂

Becher,

Ullrich,

Jagosz

et al. 2024

Adv Materials Inter

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FeNi nanoparticle-modified reduced graphene oxide as a durable electrocatalyst for oxygen evolution

Khairani,

Jin,

Palardonio

et al. 2024

Journal of Catalysis

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Understanding Selectivity in Product Distributions from Laser Ablation of Organic Liquids

Harris,

Kaplan,

Aftel

et al. 2024

J. Phys. Chem. B

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Pulsed laser ablation in organic solvents is widely used to produce oxide-free metal and metal carbide nanoparticles, often with carbon coatings resulting from laser-induced reactions in the organic solvent. To gain insight into how the molecular structure of the solvent affects these reaction pathways, this work investigates ablation of the C 6 H 14 isomers n-hexane, 2-methylpentane, and 3-methylpentane through characterization of the gas and liquid products with mass spectrometry. Ablation of each C 6 H 14 isomer produces a distinct distribution of product molecular weights and isomers. 2-methylpentane preferentially produces C 3 and C 9 , whereas 3-methylpentane produces C 2 , C 4 , C 8 , and C 10 products. These preferential product distributions, along with the lack of such selectivity in n-hexane, arise from differences in the most favorable C−C bond scission pathways in each C 6 H 14 isomer. Moreover, the particular isomers of C 8 H 18 , C 9 H 20 , C 10 H 22 , and C 12 H 26 produced by ablation of each C 6 H 14 isomer indicate that the vast majority of reaction pathways involve addition reactions between a fragment radical and parent C 6 H 14 or between two C 6 H 14 molecules, without molecular rearrangement. This propensity toward direct addition suggests that the chemical reactions induced by ultrashort pulsed laser ablation proceed on faster time scales than those of radical rearrangements.

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The Second Laser Revolution in Chemistry: Emerging Laser Technologies for Precise Fabrication of Multifunctional Nanomaterials and Nanostructures

Cited by 10 publications

References 496 publications

Pulse Duration Dependent Formation of Laser‐Induced Periodic Surface Structures in Atomic Layer Deposited MoS₂

Pulse Duration Dependent Formation of Laser‐Induced Periodic Surface Structures in Atomic Layer Deposited MoS₂

FeNi nanoparticle-modified reduced graphene oxide as a durable electrocatalyst for oxygen evolution

Understanding Selectivity in Product Distributions from Laser Ablation of Organic Liquids

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Product

Resources

About

The Second Laser Revolution in Chemistry: Emerging Laser Technologies for Precise Fabrication of Multifunctional Nanomaterials and Nanostructures

Cited by 10 publications

References 496 publications

Pulse Duration Dependent Formation of Laser‐Induced Periodic Surface Structures in Atomic Layer Deposited MoS2

Pulse Duration Dependent Formation of Laser‐Induced Periodic Surface Structures in Atomic Layer Deposited MoS2

FeNi nanoparticle-modified reduced graphene oxide as a durable electrocatalyst for oxygen evolution

Understanding Selectivity in Product Distributions from Laser Ablation of Organic Liquids

Contact Info

Product

Resources

About

Pulse Duration Dependent Formation of Laser‐Induced Periodic Surface Structures in Atomic Layer Deposited MoS₂

Pulse Duration Dependent Formation of Laser‐Induced Periodic Surface Structures in Atomic Layer Deposited MoS₂