Temperature-dependent photoluminescence from chemically and thermally reduced graphene oxide
Trần Viết CườngViet Hung PhamEun Woo ShinJin Suk ChungSeung Hyun HurEui Jung KimQuang Trung TranHoang Hung NguyenPaul A. Kohl
Abstract
Temperature-dependent photoluminescence (PL) of graphene oxide (GO) reduced with hydrazine and heat has been measured to investigate the effect of reduction type on the bandgap of the reduced GO. Nitrogen functionalities formed in the hydrazine-treated GO were responsible for a strong localization of carriers that caused in a fluctuation in PL peak position with temperature. The intensity of C-OH peak was relatively low in the heat-treated GO, indicating that raising temperature facilitated the removal of hydroxyl groups, resulting in larger sp2 domain size and smaller bandgap energy.
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