%0 Journal Article
%T First-Principles Modeling of Atomic Structure and Chemical and Optical Properties of ¦Â-C3N4
%J C ¡ª Journal of Carbon Research | An Open Access Journal from MDPI
%D 2019
%R https://doi.org/10.3390/c5040058
%X In our work, we report the results of first-principles modeling of optical and chemical properties of ¦Â-C 3N 4 in bulk (pristine and defected), surface, and nanoclusters. We demonstrate significant sensitivity of adsorption spectra of ¦Â-C 3N 4 to any kinds of disorder in atomic structure. Formation and passivation of the surface provides similar changes in optical properties. The value of the indirect bandgap depends on the chemical structure of the surface. The surface of the bulk crystal and nanocluster is chemically active and unavoidably passivated at ambient conditions. Partial oxidation of the surface of ¦Â-C 3N 4 provides decreasing of the bandgap. Functionalization of the active sites on the surface by monovalent species (hydrogen and fluorine) leads to vanishing of the bandgap in the case of (001) surface and changes the value of the bandgap in the case of nanoclusters. Results of our calculations also demonstrate the appearance of magnetic moments in hydrogenated and fluorinated (001) surface of ¦Â-C 3N 4. View Full-Tex
%U https://www.mdpi.com/2311-5629/5/4/58