Laser–Material Interactions for Flexible Applications

The use of lasers for industrial, scientific, and medical applications has received an enormous amount of attention due to the advantageous ability of precise parameter control for heat transfer. Laser‐beam‐induced photothermal heating and reactions can modify nanomaterials such as nanoparticles, nanowires, and two‐dimensional materials including graphene, in a controlled manner. There have been numerous efforts to incorporate lasers into advanced electronic processing, especially for inorganic‐based flexible electronics. In order to resolve temperature issues with plastic substrates, laser–material processing has been adopted for various applications in flexible electronics including energy devices, processors, displays, and other peripheral electronic components. Here, recent advances in laser–material interactions for inorganic‐based flexible applications with regard to both materials and processes are presented. The use of lasers in industrial, scientific, and medical applications receives an enormous amount of attention due to the advantageous ability of precise parameter control for heat transfer. Recent advances in laser–material interactions for inorganic‐based flexible applications are reviewed with regard to both materials and processes.