Lecture image placeholder

Premium content

Access to this content requires a subscription. You must be a premium user to view this content.

Monthly subscription - $9.99Pay per view - $4.99Access through your institutionLogin with Underline account
Need help?
Contact us
Lecture placeholder background
VIDEO DOI: https://doi.org/10.48448/93f3-ye22

technical paper

ICALEO 2023

October 16, 2023

Chicago, United States

Ultrashort Pulsed Lasers and New Laser Wavelengths for Improved Battery Manufacturing

keywords:

large area laser surface structuring

thin film modification

ultra short pulse surface processing

Batteries and other energy storage and energy transformation devices require a dedicated functionalisation of the subcomponents. From surface structuring to cutting and assembly of the different components, every single processing step should not influence the basic properties of the material and should even more increase the the characterics of the entire device. Ultrashort pulsed lasers provide technologies to optimize the electrical properties of the electrodes in batteries but also allow the modification of components in redox flow batteries and also in fuel cells. With micro and nano scaled structured electrodes based on ultra short ablation and modification the efficiency of batteries and electrolysers can be increased significantly. Especially in new types of batteries, like solid state batteries, short wavelengths in the UV provide the necessary power and physical properties to allow thin film modification an large scales. With ultra short pulsed lasers in the UV nano scaled modification of electrodes can be realized without influencing the electical properties of the electrodes without loosing active surface areas. With high power ultra short pulsed lasers and adapted beam guiding technologies large area surfaces can be processed. The presentation will show different approaches for the use of high power ultra short and UV lasers for the manufacturing of battery components.

Downloads

Transcript English (automatic)

Next from ICALEO 2023

Effect of In-Source Beam Shaping and Laser Beam Oscillation on the Electro-Mechanical Properties of Ni-Plated Steel Joints for E-Vehicle Battery Manufacturing
technical paper

Effect of In-Source Beam Shaping and Laser Beam Oscillation on the Electro-Mechanical Properties of Ni-Plated Steel Joints for E-Vehicle Battery Manufacturing

ICALEO 2023

Leonardo Caprio and 2 other authors

16 October 2023