Use of Graphene in Future Semiconductor Devices

Graphene is one of the most promising materials today, attracting the attention of several experts across diverse disciplines such as Photonics, Energy, Composites, and Electronics. This carbon allotrope has garnered interest since 2010, when the Nobel Prize in Physics was awarded for pioneering research on 2D graphene. The creation of nanomaterials with graphene has unique characteristics, and interest in graphene among researchers is fast increasing. The planet's most tenuous element is poised to instigate a revolution that will impact every aspect of human existence. The extraordinary features of graphene and its vast potential have generated significant excitement for this two-dimensional, one-atom-thick substance. This work aims to elucidate Graphene, focusing on its structure and stability. Its distinctive features provide a competitive advantage over comparable materials. It is anticipated that it will become ubiquitous in our future lives. The varied properties of graphene have made it highly sought after for several innovative applications in the industry. Extensive research on graphene focuses on biomedical applications because to its distinctive electrical and mechanical characteristics, making it a formidable contender. We introduce some uses of graphene anticipated to effect significant transformation imminently.