Español

Rapid and convenient preparation of small-sized metal nanoparticles using microchip lasers

920
2024-01-30 13:53:33
Ver traducción

Liquid pulse laser ablation is a reliable and versatile technique for producing metal nanoparticles in solution. Its advantages include no reducing agent, simple operation, high purity, no need for purification steps, and environmental processing conditions, making it the preferred method for traditional metal NP preparation.

The widespread adoption of PLAL in scientific and industrial research has demonstrated its practicality. However, the size and maintenance cost of traditional laser sources pose significant challenges for laboratories, especially those that are not specialized in laser science.

Recognizing these obstacles, Professor Yinghong Sakurai and Professor Yumi Yayama from Osaka University, along with their team, turned their attention to microchip laser systems. MCL, developed by the Taira team at the Institute of Molecular Science, is a compact, low-power giant pulse laser system with a cavity length of less than 10 mm, making it ideal for standard organic synthesis laboratories.

Although MCL has size advantages, the applicability of its specifications to gold target PLAL is still unclear. The research team aims to understand how differences in instrument specifications affect the results of gold PLAL, with the aim of further promoting desktop synthesis and direct application of NPs for catalytic purposes.

In a study published in the Journal of Industrial Chemistry and Materials, the team used MCL to study the PLAL of gold, focusing on the effects of small laser pulse energy, short pulse duration, and low repetition frequency on ablation efficiency. The results indicate that although the pulse energy of MCL is much smaller compared to traditional high-power lasers, it exhibits relatively higher ablation efficiency.

"Our research provides new insights into the preparation of Au NPs using compact MCL systems. Importantly, it opens up avenues for developing new catalytic reactions in standard synthetic chemistry laboratories for highly reactive NPs directly prepared using MCL," said Sakurai.

The research team includes Barana Sandakelum Hettiaracchi, Yusuke Takaoka, Yuta Uetake, Yumi Yakiyama and Mihoko Maruyama, Yusuke Mori, Hiroshi Y. Yoshikawa and Hidehiro Sakurai from Osaka University; And Hwan Hong Lim and Takunori Taira from the Institute of Molecular Science.

Source: Laser Net

Recomendaciones relacionadas
  • New laser technology unlocks deuterium release in aluminum layers

    In a recent study, quadrupole mass spectrometry was used to measure the number of deuterium atoms in the aluminum layer.A recent study led by the National Institute of Laser, Plasma, and Radiation Physics and Sasa Alexandra Yehia Alexe from the University of Bucharest explored the details of laser induced ablation and laser induced desorption techniques using a 1053 nm laser source. The study was ...

    2023-11-25
    Ver traducción
  • Changchun Institute of Optics and Fine Mechanics has developed a high brightness HiBBEE non-uniform waveguide semiconductor laser

    High brightness semiconductor lasers have extremely important applications in fields such as laser radar. Traditional semiconductor lasers face challenges such as large vertical divergence angle, elliptical beam output, multiple lateral modes, and poor beam quality, which limit the direct application of high brightness semiconductor lasers.In response to this challenge, the team from the Bimberg S...

    03-18
    Ver traducción
  • Researchers improve laser behavior by tying laser knots

    Researchers have created a new type of laser that, despite environmental noise and manufacturing defects, still performs as expected. Technically speaking, researchers have created a topology, time, and mode-locked laser. This study has the potential to improve sensors and computing hardware.A mode-locked laser emits light with regular pulses instead of a continuous beam. Pulses can be very counta...

    2024-03-07
    Ver traducción
  • 2Pi Optics has launched a new type of fisheye camera based on its so-called metasurface optics

    2Pi Optics has launched a new type of fisheye camera based on its so-called metasurface optics.The company plans to showcase this technology at the large-scale technology trade show CES 2024 in Las Vegas next week.This company, headquartered in Cambridge, Massachusetts, stated that it has created the world's leading high-resolution fisheye sensor based on optical superlens technology. This technol...

    2024-01-05
    Ver traducción
  • Low noise! Switzerland develops a new type of laser

    According to foreign media reports, scientists from the Physics Research Institute and the Institute of Physics and the Center for Quantum Science and Engineering at the Swiss Federal Institute of Technology Lausanne (EPFL) in Lausanne, Switzerland have made a new progress in the field of excitation science, developing a smaller and quieter laser system than previous products.Small laser system (I...

    2024-07-03
    Ver traducción