简体中文

Shanghai Institute of Optics and Fine Mechanics has made progress in the field of high-intensity laser cracking of high-density polyethylene

728
2025-06-16 10:48:19
查看翻译

Recently, a team from the National Key Laboratory of Ultra strong Laser Science and Technology at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, collaborated with the Arctic University of Norway (UiT) to make progress in the efficient cracking of high-density polyethylene (HDPE) using strong laser molecular bond breaking technology. The research results were published in Advanced Materials Interfaces under the title "Laser Induced Plasma Effects on Bond Breaking in High Density Polyethylene Pyrolysis".

Traditionally, laser-induced breakdown spectroscopy (LIBS) has been mainly used for elemental analysis of HDPE materials, limiting further exploration of their physical and chemical bond behavior. In the preliminary work, the team proposed a concept of using strong lasers to achieve plastic cracking [Sustainable Materials Technologies 41, e01074 (2024)]. However, existing research still has limitations in understanding the behavior after bond breakage, especially in terms of the mechanism of product formation and the plasma and ionization effects under different laser harmonics, which have not been systematically understood.

In this study, three types of nanosecond laser harmonics were used: 1064 nm (1.17 eV), 532 nm (2.34 eV), and 266 nm (4.6 eV) to investigate their interaction with HDPE. The cleavage of C-C and C-H bonds in HDPE requires energies of 3.6 eV and 4.2 eV, respectively, while the ionization potential of HDPE is approximately between 8-10 eV. The laser harmonics used in the experiment can simultaneously induce photothermal and photochemical effects. Among them, the 266 nm laser, due to its high photon energy, can directly achieve bond breaking and promote the formation of free radicals through multiphoton absorption, while the 1064 nm and 532 nm lasers mainly rely on avalanche ionization to achieve molecular bond breaking. These processes generate free radicals, which emit fluorescence at specific wavelength positions during recombination (e.g. C-C bond at 500 nm, C-H bond at 432.3 nm, C-N bond at 386.1 nm, and H α line at 656.3 nm). Among them, 266 nm showed a more efficient bond breaking efficiency, as shown in Figure 1 (a to c). This study successfully achieved efficient breaking of HDPE molecular bonds using strong laser pulses, revealing previously unexplored physical mechanisms and potential product generation pathways in the bond dissociation process. The behavior characteristics of photons and plasmas under the action of laser fields were analyzed in depth, providing key support for further understanding and optimization of laser efficient plastic cracking processes and technologies.

 


Figure 1. Spectral evidence of HDPE molecular bond breakage under different laser harmonics a) 1064 nm, b) 532 nm, c) 266 nm
Relevant research has been funded by NSAF Joint Fund, Shanghai Science and Technology Plan, Chinese Academy of Sciences International Cooperation Program and CSC International Student Scholarship.

Source: Opticsky

相关推荐
  • Scientists use glass to create femtosecond lasers

    Image source: Federal Institute of Technology in Lausanne, SwitzerlandScience and Technology Daily, Beijing, September 27th (Reporter Zhang Jiaxin) Commercial femtosecond lasers are manufactured by placing optical components and their mounting bases on a substrate, which requires strict alignment of optical components. So, is it possible to manufacture femtosecond lasers entirely from glas...

    2023-09-28
    查看翻译
  • A research team at City University of Hong Kong has developed a multispectral, ultra-low dose photoacoustic microscope system

    Optical resolution "photoacoustic microscope is a new biomedical imaging technology, which can be used in the research of cancer, diabetes, stroke and other diseases. However, insufficient sensitivity has always been a long-term obstacle to its wider application.According to Maims Consulting, a research team from City University of Hong Kong (CityU) has recently developed a multispectral, ultra-lo...

    2023-09-21
    查看翻译
  • A New RIEGL Laser Scanning Solution for Drone Data Acquisition

    With its latest developments, RIEGL once again emphasizes its pioneering role as a supplier of high-performance LiDAR sensors and integrated systems with UAS. The continuous trend in the drone system industry requires measurement level laser scanners that match the integrated performance of compact multi rotor and high-speed vertical takeoff and landing or fixed wing drone platforms.RIEGL has reco...

    2023-12-01
    查看翻译
  • Laser-induced graphene sensor can diagnose diabetes through breath samples

    In the U.S., one in five of the 37 million adults who has diabetes is not aware of it (according to the U.S. CDC – Centers for Disease Control & Prevention). Current methods of diagnosing diabetes and prediabetes usually require a visit to a doctor’s office or lab work, both of which can be expensive and time-consuming. Now, diagnosing diabetes and prediabetes may be as simple as breathing. ...

    09-08
    查看翻译
  • Using laser controlled filaments in vanadium dioxide to enhance neural morphology calculations

    In a new "Progress in Science" study, scientists from the University of Science and Technology of China have developed a dynamic network structure for neural morphology calculations using laser controlled conductive wires.Neuromorphic computing is an emerging research field that draws inspiration from the human brain to create efficient and intelligent computer systems. The core of neuromorphic co...

    2023-10-13
    查看翻译