2022
DOI: 10.3390/nano12172944
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On the Distinctive Hardness, Anti-Corrosion Properties and Mechanisms of Flame-Deposited Carbon Coating with a Hierarchical Structure in Contrast to a Graphene Layer via Chemical Vapor Deposition

Abstract: Two carbonaceous (amorphous carbon and graphene) coatings were catalytically grown on bulk Ni plates. It was found that the flame-deposited carbon (FDC) layers exhibited a unique hierarchical structure with the formation of FDC/Ni nano-interlocking interface. The effect of the flame coating time on its corrosion protective efficiency (PE) was studied and compared with that of graphene coating produced via chemical vapor deposition. The FDC grown for 10 min exhibited a PE of 92.7%, which was much greater than t… Show more

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Cited by 3 publications
(5 citation statements)
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“…This indicates the increase in the interlayer spacing of GO, confirming the intercalation of PA 651 and the presence of functional groups in PGO. Similar to other research on GO based carbon materials [2][3][4], two strong bands could be observed in the Raman spectra of both GO and PGO (Figure 2b). After the modification of GO with the polyamide, the D (1349 cm −1 ) and G bands (1597 cm −1 ) moved to 1329 cm −1 and 1596 cm −1 , respectively, which indicated a certain charge transfer between the polyamide and GO.…”
Section: Physical Chemical Structure Of Go and Pgosupporting
confidence: 88%
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“…This indicates the increase in the interlayer spacing of GO, confirming the intercalation of PA 651 and the presence of functional groups in PGO. Similar to other research on GO based carbon materials [2][3][4], two strong bands could be observed in the Raman spectra of both GO and PGO (Figure 2b). After the modification of GO with the polyamide, the D (1349 cm −1 ) and G bands (1597 cm −1 ) moved to 1329 cm −1 and 1596 cm −1 , respectively, which indicated a certain charge transfer between the polyamide and GO.…”
Section: Physical Chemical Structure Of Go and Pgosupporting
confidence: 88%
“…Coatings are often unitized to protect metals from corrosion [1][2][3][4]. Among the various coatings, Zn-rich polymer composite paint is a widely applied type of coating due to the effect of the Zn particles, which work as anodes to provide cathodic protection for metal substrates [1,[5][6][7][8].…”
Section: Introductionmentioning
confidence: 99%
“…The large size and unique spatial structure of the 3DG fragments are expected to not only alleviate the re-stack of graphene sheets in the polymer matrix, but also favor the formation of the electric conductive path between Zn micro-flakes in the ZRE coatings, which helps to fully exert their cathodic protection function. Similar to the research on the graphene deposited on catalytic metal substrates in the literature [6,28], two strong peaks for the G band at 1576.7 cm −1 and the 2D band at 2700 cm −1 , together with a very weak peak for the D band around 1357 cm −1 , could be observed in the Raman spectrum of 3DG (Figure 3). As the D band refers to the disorder carbon Similar to the research on the graphene deposited on catalytic metal substrates in the literature [6,28], two strong peaks for the G band at 1576.7 cm −1 and the 2D band at 2700 cm −1 , together with a very weak peak for the D band around 1357 cm −1 , could be observed in the Raman spectrum of 3DG (Figure 3).…”
Section: Structure Characterization Of G and 3dgsupporting
confidence: 83%
“…Similar to the research on the graphene deposited on catalytic metal substrates in the literature [6,28], two strong peaks for the G band at 1576.7 cm −1 and the 2D band at 2700 cm −1 , together with a very weak peak for the D band around 1357 cm −1 , could be observed in the Raman spectrum of 3DG (Figure 3). As the D band refers to the disorder carbon Similar to the research on the graphene deposited on catalytic metal substrates in the literature [6,28], two strong peaks for the G band at 1576.7 cm −1 and the 2D band at 2700 cm −1 , together with a very weak peak for the D band around 1357 cm −1 , could be observed in the Raman spectrum of 3DG (Figure 3). As the D band refers to the disorder carbon structure, and the relative intensities I D /I G could be used to evaluate the defect degree of carbonaceous structure, the Raman spectrum of 3DG confirms its high crystalline structure.…”
Section: Structure Characterization Of G and 3dgsupporting
confidence: 83%
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