繁体中文

Laser printing on fallen leaves can produce sensors for medical and laboratory use

1017
2024-05-16 17:18:22
查看翻譯

The manufacturing of sensors through 3D printing combines speed, design freedom, and the possibility of using waste as a substrate. In the circular economy model, various results have been achieved, and typically discarded residues are used as low-cost resources. A research team in Brazil has proposed a highly creative solution that involves printing electrochemical sensors on fallen leaves. The team is led by Bruno Janegitz, Professor and Head of Sensors, Nanopharmaceuticals and Nanostructured Materials Laboratory (LSNANO) at the Federal University of San Carlos (UFSCar), and Thiago Paix ã o, Professor and Head of Electronic Tongue and Chemical Sensor Laboratory (L2ESQ) at the University of S ã o Paulo (USP). This initiative has received support from FAPESP and was emphasized in an article published in the journal ACS Sustainable Chemistry and Engineering.

Janegitz said, "We used CO2 (carbon dioxide) lasers to print designs of interest on leaves through pyrolysis and carbonization. Therefore, we obtained an electrochemical sensor for measuring levels of dopamine and paracetamol. It is very easy to operate. A drop of solution containing one of the compounds is placed on the sensor, and a potentiostat connected to it displays the concentration."

Simply put, the laser beam burns the leaves during the pyrolysis process, converting their cellulose into graphite, which is printed on the leaves in a shape suitable for use as a sensor. During the manufacturing process, the parameters of the CO2 laser, including laser power, pyrolysis scanning rate, and scanning gap, are systematically adjusted to obtain the best results.

Janegitz said, "These sensors have been characterized through morphology and physicochemical methods, allowing for a detailed exploration of the new carbonized surfaces generated on the leaves."

"In addition, the applicability of the sensor was confirmed through testing dopamine and paracetamol in biological and drug samples. For dopamine, the system is effective in the linear range of 10-1200 micromoles per liter, with a detection limit of 1.1 micromoles per liter. For paracetamol, the system has a linear range of 5-100 micromoles per liter, with a detection limit of 0.76."

In tests involving dopamine and paracetamol, as a proof of concept, the electrochemical sensor extracted from fallen leaves achieved satisfactory analytical performance and noteworthy reproducibility, highlighting its potential as a substitute for traditional substrates.

Replacing traditional materials with fallen leaves has produced significant benefits in reducing costs and, most importantly, environmental sustainability. Janegitz said, "These leaves would have been incinerated or at best composted. Instead, they are being used as substrates for high-value devices, which is a significant advancement in the manufacturing of next-generation electrochemical sensors."

Source: Laser Net

相關推薦
  • Using laser welding technology to manufacture rotor shafts at the speed of light

    How can EMAG Laser Technology accelerate the production of critical powertrain components using its flagship product ELC 6 system?The rapid popularity of electric vehicles worldwide indicates that production planners must increase their efforts in producing key components of electric vehicles, particularly the rotor shaft. The importance of the rotor shaft as the core component for converting elec...

    2024-07-17
    查看翻譯
  • Breakthrough in Light Manipulation: Revealing New Finite Barrier Bound States

    Exploring the propagation and localization of waves in various media has always been a core focus of optics and acoustics. Specifically, in photonics and phononics, scientists have been dedicated to understanding and controlling the behavior of light and sound waves in periodic media.Photonic crystals have unique bandgap characteristics, providing an excellent platform for studying wave propagatio...

    2024-03-25
    查看翻譯
  • $75 million, this laser equipment manufacturer will be acquired

    Rocket Lab USA continues its path of vertical integration and has signed an exclusive but non binding agreement with MynaricAG, a German laser communication terminal (LCT) supplier and Rocket Lab supplier, to acquire the company for $75 million in cash or stock.If Mynaric achieves its revenue target, it will pay an additional revenue of up to $75 million. This acquisition depends on whether Myna...

    03-25
    查看翻譯
  • Scientists from the SLAC National Accelerator Laboratory in the United States have launched the world's most powerful X-ray laser

    Scientists at the SLAC National Accelerator Laboratory have launched the world's most powerful X-ray laser, which will be used for in-depth atomic and molecular research.It is a significant upgrade to its predecessor, as its brightness has increased by 10000 times.The upgraded laser facility also uses superconducting accelerator components, allowing it to operate at low temperatures near absolute ...

    2023-11-17
    查看翻譯
  • Iron Triangle releases fiber Bragg gratings and arrays based on multi-core fibers

    T35 multi-core fiber grating and T103 multi-core fiber grating arrays can be engraved into all fiber cores in physical locations, or only onto certain fiber cores.They can also have the same wavelength, or they can have all different wavelengths at the same physical location along the fiber or at different physical locations along the fiber.T35 and T103 are very suitable for projects that require...

    2023-10-28
    查看翻譯