Nonlinear optical properties of nitrogen-doped bilayer graphene

Abstract: The electronic properties of graphene can be controlled by substitutional doping to obtain p-type or n-type characteristics. To this end, bilayer graphene films are synthesized using CVD method and substitutionally doped with Nitrogen (N). Previously, XPS measurements done in tandem with Raman spectroscopy revealed that the rich chemistry between carbon and nitrogen can result in pyridinic, pyrrolic, or graphitic con¿JXUDWLRQV The nonlinear optical properties (NLO) of both pristine and N-doped graphene samples… Show more

“…2b) consists of three peaks, which indicates that the N 24 The Raman spectrum of N-doped graphene is shown in Fig. 3 and is very similar to those reported by Anand et al 25 The N doping creates a large amount of topological defects, and the sp 2 C of these defects induces the much stronger D band Raman peak at $1330 cm À1 . On the contrary, for pure graphene, this peak is very faint.…”

“…On the contrary, for pure graphene, this peak is very faint. 25 Thus, the obvious D band Raman peak in Fig. 3 reects the effective N doping and the increasing of lattice disorder.…”

Nonlinear optical effects in nitrogen-doped graphene

“…2b) consists of three peaks, which indicates that the N 24 The Raman spectrum of N-doped graphene is shown in Fig. 3 and is very similar to those reported by Anand et al 25 The N doping creates a large amount of topological defects, and the sp 2 C of these defects induces the much stronger D band Raman peak at $1330 cm À1 . On the contrary, for pure graphene, this peak is very faint.…”

“…On the contrary, for pure graphene, this peak is very faint. 25 Thus, the obvious D band Raman peak in Fig. 3 reects the effective N doping and the increasing of lattice disorder.…”

Nonlinear optical effects in nitrogen-doped graphene

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