How the Physicochemical Properties of the Bulk Material Affect the Ablation Crater Profile, Mass Balance, and Bubble Dynamics During Single‐Pulse, Nanosecond Laser Ablation in Water

Kalus, Mark-Robert; Barcikowski, Stephan; Gökce, Bilal

doi:10.1002/chem.202005087

Cited by 15 publications

(10 citation statements)

References 110 publications

(319 reference statements)

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“…[104] This was previously reported by Kalus et al who found higher gas and hydrogen formation rates in water when using higher fluences. [105] However, correlations between gas formation and laser parameters in organic solvents have rarely been addressed so far. LAL of Au in n-hexane was performed at two different lasers and the results are shown in Table S3.…”

Section: Influence Of Laser Fluencementioning

confidence: 99%

Impact of Chemical and Physical Properties of Organic Solvents on the Gas and Hydrogen Formation during Laser Synthesis of Gold Nanoparticles

et al. 2023

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Laser ablation in liquids has been established as a scalable preparation method of nanoparticles for various applications. Particularly for materials prone to oxidation, it is established to suppress oxidation by using organic solvents as a liquid medium. While this often functionalizes the nanoparticles with a carbon shell, the related chemical processes that result from laser-induced decomposition reactions of the organic solvents remain uncertain. Using a systematic series of C 6 solvents complemented by n-pentane and n-heptane during the nano-second laser ablation of gold, the present study focuses on the solvent-dependent influence on gas formation rates, nanoparticle productivity, and gas composition. Both the permanent gas and hydrogen formation was found to be linearly correlated with ablation rate, ΔH vap , and pyrolysis activation energy. Based on this, a decomposition pathway linked to pyrolysis is proposed allowing the deduction of first selection rules for solvents that influence the formation of carbon or permanent gases.

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Section: Influence Of Laser Fluencementioning

confidence: 99%

Impact of Chemical and Physical Properties of Organic Solvents on the Gas and Hydrogen Formation during Laser Synthesis of Gold Nanoparticles

et al. 2023

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“…For ns-LAL the reflectivity change in water is more pronounced than in air due to supercritical water layer formation and an emerging vapor layer 26 . The time scale of the supercritical water layer formation is dependent on the laser fluence.…”

Section: Discussionmentioning

confidence: 97%

“…Following the observation of Starinskiy et al 26 , it is hypothesized that for pulse durations of several hundred ps to 1 ns, the laser pulse is shorter than the starting time for vapor layer formation. Thus, this loss mechanism can be excluded for 3 ps pulses.…”

Section: Discussionmentioning

confidence: 99%

“…The time scale of the supercritical water layer formation is dependent on the laser fluence. The formation starts already during the 9 ns laser beam's rising edge and fluences near the damage threshold 26 . Since, in our experiments, the threshold fluence is exceeded about 4 -5 times 15 , a very early vapor formation, i.e., reflectivity decrease, is expected.…”

Section: Discussionmentioning

confidence: 99%

“…Consequently, the laser pulses are also shielded by the forming vapor above the target surface and, later, the cavitation bubble. In a study with a 9 ns laser, the shielding at an early stage of the laser pulse was investigated after the irradiation of an Au target immersed in water 26 .…”

Section: Introductionmentioning

confidence: 99%

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Time resolved studies reveal the origin of the unparalleled high efficiency of one nanosecond laser ablation in liquids

Dittrich¹,

Spellauge²,

Barcikowski³

et al. 2022

OEA

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Laser ablation in liquid is a scalable nanoparticle production method with applications in areas like catalysis and biomedicine. Due to laser-liquid interactions, different energy dissipation channels such as absorption by the liquid and scattering at the ablation plume and cavitation bubble lead to reduced laser energy available for nanoparticle production. Ultrashort pulse durations cause unwanted nonlinear effects in the liquid, and for ns pulses, intra-pulse energy deposition attenuation effects are to be expected. However, intermediate pulse durations ranging from hundreds of picoseconds up to one nanosecond have rarely been studied in particular in single-pulse settings. In this study, we explore the pico-to nanosecond pulse duration regimes to find the pulse duration with the highest ablation efficiency. We find that pulse durations around 1 -2 ns enable the most efficient laser ablation in liquid since the laser beam shielding by the ablation plume and cavitation bubble sets in only at longer pulse durations. Furthermore, pump-probe microscopy imaging reveals that the plume dynamics in liquids start to differ from plume dynamics in air at about 2 ns after pulse impact.

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Surface Chemistry and Specific Surface Area Rule the Efficiency of Gold Nanoparticle Sensitizers in Proton Therapy

Johny,

van Halteren,

Cakir

et al. 2023

Chemistry A European J

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Gold nanoparticles (AuNPs) are currently the most studied radiosensitizers in proton therapy (PT) applicable for the treatment of solid tumors, where they amplify production of reactive oxygen species (ROS). However, it is underexplored how this amplification is correlated with the AuNPs’ surface chemistry. To clarify this issue, we fabricated ligand‐free AuNPs of different mean diameters by laser ablation in liquids (LAL) and laser fragmentation in liquids (LFL) and irradiated them with clinically relevant proton fields by using water phantoms. ROS generation was monitored by the fluorescent dye 7‐OH‐coumarin. Our findings reveal an enhancement of ROS production driven by I) increased total particle surface area, II) utilization of ligand‐free AuNPs avoiding sodium citrate as a radical quencher ligands, and III) a higher density of structural defects generated by LFL synthesis, indicated by surface charge density. Based on these findings it may be concluded that the surface chemistry is a major and underexplored contributor to ROS generation and sensitizing effects of AuNPs in PT. We further highlight the applicability of AuNPs in vitro in human medulloblastoma cells.

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How the Physicochemical Properties of the Bulk Material Affect the Ablation Crater Profile, Mass Balance, and Bubble Dynamics During Single‐Pulse, Nanosecond Laser Ablation in Water

Cited by 15 publications

References 110 publications

Impact of Chemical and Physical Properties of Organic Solvents on the Gas and Hydrogen Formation during Laser Synthesis of Gold Nanoparticles

Impact of Chemical and Physical Properties of Organic Solvents on the Gas and Hydrogen Formation during Laser Synthesis of Gold Nanoparticles

Time resolved studies reveal the origin of the unparalleled high efficiency of one nanosecond laser ablation in liquids

Surface Chemistry and Specific Surface Area Rule the Efficiency of Gold Nanoparticle Sensitizers in Proton Therapy

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