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LASERION aims to create advanced carbonized electrodes from bio-based polymers for enhanced ion sensing through electrochemical methods. The project focuses on sustainable materials and innovative laser techniques to contribute to climate neutrality and modern electronics.
LASERIONs main objective is to develop robust and efficient hierarchical porous laser-patterned film (LPF) carbonized electrodes (CE) for unprecedented ion sensing by electrochemistry. LASERIONs ambition, aligned with the EU Green deal 2050 carbon neutrality roadmap and United Nations goal 9, is to contribute simultaneously to climate neutrality while proposing a new technological path to reinvent the modern electronical industry.
For that purpose, the research fellow (RF) will conjointly with t…
FRIEDRICH-ALEXANDER-UNIVERSITAET ERLANGEN-NUERNBERG
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