ABSTRACT
Progress in bioelectronics has brought several opportunities to design bio-related versatile architectures for sensors, actuators, and information processing systems. The recent innovation in materials is an important factor behind rapid advancements in bioelectronics. 2D materials possess superior electronic/optical properties, high specific area, high transparency, and excellent biocompatibility. Herein, a detailed description related to current advancements in 2D materials for bioelectronics is presented. The key features of material required to develop bioelectronic devices are discussed. The mechanism involved during sensing in bioelectronic is crucial to designing a bioelectronic device. The fabrication methods for 2D materials also play a vital role in the development of the efficient bioelectronic device. Current challenges and opportunities associated with 2D materials–based bioelectronics are addressed.
