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B. H. Yuan, W. Y. Xing, Y. X. Hu, X. W. Mu, J. L. Wang, Q. L. Tai, G. J. Li, L. Liu, K. M. Liew and Y. Hu (2016) Carbon 101 152-158.
Date: 2017-03-10   Author: SKLFS  ,   Source: SKLFS  ,
 

B. H. Yuan, W. Y. Xing, Y. X. Hu, X. W. Mu, J. L. Wang, Q. L. Tai, G. J. Li, L. Liu, K. M. Liew and Y. Hu (2016) Boron/phosphorus doping for retarding the oxidation of reduced graphene oxide. Journal/Carbon 101 152-158. [In English]
Web link: http://dx.doi.org/10.1016/j.carbon.2016.01.080
Keywords: ,BORON-DOPED GRAPHENE, OXYGEN REDUCTION, FUNCTIONALIZED GRAPHENE, THERMAL-STABILITY, CARBON FOAMS, PHOSPHORUS, NITROGEN, SUPERCAPACITORS, NANOCOMPOSITES, NANOPLATELETS

Abstract: B, N-and P, N-doped reduced graphene oxide (RGO) are prepared through high temperature annealing method using boric acid and phosphoric acid as the B and P sources, respectively. The synthesized RGO and dual-doped RGO are well characterized by Fourier transform infrared spectroscopy, X-ray diffraction, Raman spectroscopy, X-ray photoelectron spectroscopy and transmission electron microscopy. The heteroatoms are found to be introduced into the graphene structure. The low level of doping (approximately 1.10 at%) exhibits significant improvement in thermal oxidative stability of RGO. In comparison with neat RGO, the temperature at maximum weight loss rate of B-RGO and P-RGO increase by as much as 52 degrees C and 130 degrees C, respectively. The mechanism for retarding RGO oxidation by B/P doping is clearly proposed. More stable bond configurations are formed in the B/P-doped RGO. The doped B and P atoms reduce the reactivity of carbon active sites and inhibit the carbon gasification. This work will provide an understanding of thermal oxidative stability of heteroatoms-doped RGO, and offer a strategy for fabricating graphene with elevated temperature applications. (C) 2016 Elsevier Ltd. All rights reserved.

 
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