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W3208232214 endingPage "108654" @default.
W3208232214 startingPage "108654" @default.
W3208232214 abstract "Graphene oxide (GO) is actively used in modern material science as a substitute for graphene, which is due to the presence of graphene regions in the GO structure. The setting and tuning of graphene unique properties are largely determined by the type of GO processing. Here, the composition, and microstructure of graphene oxide MEGO (microwave exfoliated graphite oxide) and products of MEGO thermal treatment (MEGO/573 and MEGO/1073) are determined. MEGO family particles are considered as consisting of bundles of oxidized graphene connected by numerous deformation defects of the layers – bends, folds, twists. For prolonged annealing of MEGO in vacuum, the disordered state of the GO bundles is preserved, partial exfoliation of graphene oxide bundles occurs, and holes are formed in the graphene oxide layers. The joint analysis of Raman spectroscopy data for MEGO's and for GO samples studied in a number of works was carried out. The stable minor crystallinity of MEGO samples is determined by small blocks of coherent diffraction (BCD), in which the interlayer distance deviates in both the larger and smaller sides from the characteristic value of graphite. The found features give reasons to believe that the graphene regions availability increases with a given MEGO annealing mode, and GO with similar properties can be used to develop “dry” methods for the synthesis of composites." @default.
W3208232214 created "2021-11-08" @default.
W3208232214 creator A5021654684 @default.
W3208232214 creator A5022991113 @default.
W3208232214 creator A5032844324 @default.
W3208232214 creator A5040431749 @default.
W3208232214 creator A5043886388 @default.
W3208232214 creator A5045043228 @default.
W3208232214 creator A5068880258 @default.
W3208232214 date "2021-12-01" @default.
W3208232214 modified "2023-09-27" @default.
W3208232214 title "Microwave exfoliated graphite oxide (MEGO) heat treatment: Transformation and stability" @default.
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W3208232214 doi "https://doi.org/10.1016/j.diamond.2021.108654" @default.
W3208232214 hasPublicationYear "2021" @default.