▎ 摘　　要

This paper is aimed to review and promote the main applications of the methods of quantum field theory (QFT) to description of quantum effects in graphene. We formulate the effective electromagnetic action following from the Dirac model for the quasi-particles in graphene and apply it for derivation of different observable effects like the induced mean charge, quantized conductivity, Faraday effect and Casimir interaction involving graphene samples.