New paper on graphitized wood for electrically conductive biomaterials.

Using multiscale characterization techniques, we take a step closer to understanding the growth and migration behavior of catalytic iron nanoparticles and their role during Iron-Catalyzed Laser-Induced Graphitization, a promising approach for rendering biomaterials electrically conductive. Integrating nanoscale findings within a mesoscopic framework provides new insights into the structural evolution during graphitization and highlights the potential of this approach for future green electronics