石墨烯及石墨烯场效应管的辐照效应研究进展

石墨烯由于高迁移率、高导热性、柔韧性好和机械强度高等优异性能使其成为构筑新型纳米电子器件的重要材料，已成为电子信息、生物医学、显示等领域的研究热点。当石墨烯材料及其电子器件放置于含有辐照因素的场景中时，会因为与高能光子和带电粒子等相互作用而改变晶格结构或积累电荷，使石墨烯材料及电子器件的性能发生变化。本文主要综述了典型辐照因素对石墨烯及器件的主要效应及研究进展，旨在总结不同辐照在石墨烯及其电子器件中引发的物理效应，归纳其微观-宏观性质变化，为加深石墨烯材料及器件的辐照效应的理解，推动其在辐照场景中的实际应用奠定基础。

Progress in the study of irradiation effects of graphene and graphene field effect transistors

Graphene has become a type of important material for the construction of new nanoelectronic devices due to its high mobility, high thermal conductivity, good flexibility as well as mechanical strength. When graphene materials and their electronic devices are placed in a scene containing irradiation factors, the lattice structure can be changed. The charges then are accumulated due to interactions with high-energy photons and charged particles, resulting in changes in the performance of graphene materials and electronic devices. This paper mainly reviews the main effects of typical irradiation factors on graphene and its devices and the research progress, aiming to summarize the physical effects induced by irradiations on graphene and its electronic devices. This work deepens the understanding of the irradiation effect on graphene materials and devices, and lays a foundation for promoting its practical application in the irradiation scene.