Biosensing using C3N nanoribbon

C3N is a newly discovered two dimensional crystals, finite bandgap, high carrier mobility and large ON/OFF current makes its applications possible in the electronics and sensing field. In this work, we designed a nanopore based on C3N monolayer to detecting the sensitivity of the uracil molecule. First principle based Density Functional Theory can be used to calculate the transport properties of C3N. We observe that there are significant changes in the transport behavior by interacting uracil molecule on C3N which indicates towards its Future applications in Bio-sensing Field. Among sulphur and boron atom doped, sulphur introduced maximum changes at the edge than center location.