2015
DOI: 10.1039/c5ra10696f
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Simultaneous chemical reduction and surface functionalization of graphene oxide for efficient lubrication of steel–steel contact

Abstract: 13 bonds due to the presence of oxygenated functionalities. 42,46 The π-π* peak red-shifted to 267 nm upon reduction to graphene with hydrazine and the absence of n-π* transitions at 310 nm indicates the removal of the oxygen functionality from GO after reduction by hydrazine. In GO-ODA, the π-π* transitions of graphitic C=C bonds shifted to 266 nm, and n-π* transitions of C-O bonds completely disappeared similar to graphene indicates the simultaneous formation of RGO and functionalization with ODA molecules. … Show more

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Cited by 38 publications
(25 citation statements)
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“…However, with an ODA functionalization, the π → π* peak red shifted towards the restoration of the π → π* conjugation in the GO-ODA sample. However, the n → π* transition at 310 nm completely disappeared, suggesting that the oxygen-containing groups were reduced, leading to extended graphitization [43]. Similarly, the π → π* peaks of the GO-ANS appeared at 260 nm with the absence of characteristics of a n → π* transition.…”
Section: Resultsmentioning
confidence: 99%
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“…However, with an ODA functionalization, the π → π* peak red shifted towards the restoration of the π → π* conjugation in the GO-ODA sample. However, the n → π* transition at 310 nm completely disappeared, suggesting that the oxygen-containing groups were reduced, leading to extended graphitization [43]. Similarly, the π → π* peaks of the GO-ANS appeared at 260 nm with the absence of characteristics of a n → π* transition.…”
Section: Resultsmentioning
confidence: 99%
“…Figure 12(a) showed a weak intensity Raman signal (G band peak at 1,596 cm −1 ) for the particle film generated with GO at the HS condition whereas at the LS condition, a Raman signal was visible at a much higher intensity at the respective D and G band peak position. The higher intensity signal indicates the presence of a significantly thicker particle film on the wear track [15,43]. The worn track, corresponding to the GO-ODA at LS condition, showed the characteristic |www.Springer.com/journal/40544 | Friction http://friction.tsinghuajournals.com G band at 1,588 cm −1 corresponding to the reduced form of the GO and the intensity was drastically reduced at the HS condition due to the removal of the particle film ( Fig.…”
Section: Tribological Investigationsmentioning
confidence: 99%
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“…The FTIR spectrum of Oct-O-GO(1) revealed the characteristic bands of the alkyl groups corresponding to the modification with n-Octanol. In particular, the peaks at 2,853 cm −1 and 2,924 cm −1 are attributed to the symmetric and asymmetric stretching vibration of the alkyl groups, respectively [43]. Moreover, there were several characteristic bands of epoxy groups and no carboxyl groups in the FTIR spectrum of Oct-O-GO(1), which indicates that the carboxyl groups in Oct-O-GO(1) reacted with n-Octanol.…”
Section: Characterization Of Go and Oct-o-gomentioning
confidence: 93%
“…31 In general, the G band refers to the stretching regions of C-C bonds, while the 2D band indicates a signature of graphitic sp 2 structures. 32 Besides, D band at 1350 cm À1 , which usually refers to the defects, was also observed. These defects can be obtained from vacancies of the atom, grain boundaries, and doping atoms in graphene, or amorphous parts.…”
Section: Structural Characterizationmentioning
confidence: 94%