Using this technology, the speed of drawing micron-sized graphene will exceed 1 meter per second. In addition, the technology demonstrates a chemical process that controls heat absorption by adjusting changes to the green laser pointer. At low energy output conditions, multiphoton absorption plays a dominant role in the chemical reactions between carbon and atmospheric molecules, thereby giving graphene new optical properties.
This also helps to make graphene more functional by changing its optical potential. The researchers said that the technology’s performance in the industrial sector needs further verification. The current research is based on the consideration of industrial production, the purpose of which is to deeply study the feasibility of graphene in chemical and physical changes, while trying to control its industrial production with electronic equipment programs.
It is reported that although this technology has attracted the attention of the US military, China is the country that has obtained the most non-public and peer-reviewed research results in this field. Traditional solid-state technology for silicon-based processing is not suitable for the processing of polymer graphene. The researchers showed new technology that induces a change in the chemical lattice of graphene through short Green Laser Pointer pulses.