Wrinkled graphene: synthesis and characterization of few layer graphene-like nanocarbons from kerosene

Ramya, Athiyanam Venkatesan; Mohan, Anu N.; Balachandran, Manoj

doi:10.1515/msp-2016-0061

Cited by 28 publications

(12 citation statements)

References 17 publications

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“…The D band (at 1380 cm -1 ) is due to the delocalized π states around the sp 2 chains [4,15,18]. The intensity ratio (I D /I G ) is a measure of defect quantity in graphitic materials is found to be 0.54 indicating low defect.…”

Section: Resultsmentioning

confidence: 99%

“…Graphene is synthesized from variety of precursors like graphite, graphene oxide, carbon nanotubes, carbon fibres and activated carbon. Physical approach such as mechanical exfoliation, lithography and other approaches such as hydrothermal treatment, electrochemical oxidation, proton ablation and chemical oxidation have been used for the synthesis of graphene [4,5]. However, most of the above stated precursors and production methods are too expensive and are optimized for the production of graphene with a homogenous sp 2 phase [6,7].…”

Section: Introductionmentioning

confidence: 99%

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Extraction and Characterization of Preformed Mixed Phase Graphene Sheets from Graphitized Sub-Bituminous Coal

Rao¹,

Raj²,

Balachandran³

2017

Asian J. Chem.

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In present paper, a facile method is reported to extract mixed phase nanometre-sized carbon sheets from sub-bituminous coal. The lattice constants (La and Lc) of sub-bituminous coal were calculated to be 4.82 and 1.41 nm, respectively. The aromatic layers and average number of carbon atoms in the aromatic lamellae were estimated as 5 and 8, respectively. The obtained graphene sheets exhibits broadened D and G band in addition to a very broad 2D bump. Defect to graphitic ratio is found to be 0.54 indicating less disorder in graphene nanomaterial formed. This is further corroborated by (ID/ID') ratio which was observed to be 3.40, confirming the defect has originated from boundary. The SEM analysis reveals the formation of large number of carbon layers with different shape in the nanometer scale range. Formation of graphene dots in the shape of hexagonal, spherical, graphene layers and corn shaped carbon nanotubes are noticed in the TEM image.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Extraction and Characterization of Preformed Mixed Phase Graphene Sheets from Graphitized Sub-Bituminous Coal

Rao¹,

Raj²,

Balachandran³

2017

Asian J. Chem.

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“…The structural parameters are elucidated and depicted in Table-1. The typical 2θ values for the sp 2 carbon forms of the (002) planes occur at approximately 25°, which constitutes the π band. However, there is a marked broadening of the peak, which can be attributed to the γ band, formed due to aliphatic [2][3][4][5][6]. Lattice strain can also result in the broadening of the peak, but due to the small particle size, this effect is negligible.…”

Section: And Discussionmentioning

confidence: 99%

Synthesis of Graphene Oxide Nano Structures from Kerosene Soot and its Impedance Analysis

Khan¹,

Jayachandran²,

Balachandran³

2018

Asian J. Chem.

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Nanotechnology and nanocarbon has gained tremendous progress in recent years owing to their versatile properties. It broadly deals with the making, characterization and utility of materials, devices and systems with dimensions in the nano range, exhibiting significantly enhanced physical, chemical and biological properties. Investigation of different types of carbon nanostructures and graphene-forms the trending field in Material Science [1-4]. Hence, newer, simpler ways are being devised to synthesize this wonder material-graphene. Synthesis of graphene at a large scale is still a challenge, owing to the economy of the methods employed. In the present work, kerosene soot has been employed as the precursor for the synthesis of few-layered graphene oxide. Also, soot being one of the pollutants of the atmosphere, harnessing it and using it to produce a fine material such as graphene, would be an ecofriendly solution to the current needs. Dielectric measurements and conductivity studies have been reported for a wide variety of inorganic semiconductors. In nanocarbon materials such reported studies are scarce. EXPERIMENTAL Kerosene soot: Kerosene soot was prepared by burning kerosene in a glass bottle, with the help of a wick and collecting the product of the incomplete combustion (soot) on a tile. This black matter was then transferred to containers and labelled

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“…The 2D band originates from the double resonance process and hence, appears to be dispersing in nature. In addition to these bands, a D band is noticed at 1350 cm −1 which arises due to the proximity of defect or diamond like structure [2][3][4]. The sp 3 carbon network shows characteristic Raman features, prominently at 1148 cm −1 and secondary peaks at 1274 cm −1 and 1307 cm −1 (owing to tetrahedral amorphous carbon-ta-C) for sub-bituminous coal [13].…”

Section: Raman Analysismentioning

confidence: 97%

“…With the industrial revolution, coal has turned out to be a vital energy source across the globe. Besides as an energy source, it is utilized as an important and vital reserve for the manufacturing of chemicals such as creosote oil, naphthalene, phenol and benzene [1][2][3][4][5]. With the discovery of carbon nanomaterials, scientific research on coal based products have received ever increasing attention [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

Facile synthesis of preformed mixed nano-carbon structure from low rank coal

Balachandran

Raj

Chirayil

2018

Materials Science-Poland

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Coal is a natural energy resource which is mainly used for energy production via combustion. Coal has nanocrystals embedded in it, formed during the coalification process, and is an ideal precursor for nano-carbon dots and diamonds. Herein, we report a facile top-down method to synthesise nanodots and diamonds of the size of 5 nm to 10 nm from three different types of coal by simple chemical leaching. TEM analysis revealed the formation of a mixture of carbon dots, graphene layers, and quantum dots in bituminous coal and sub-bituminous coal. Raman analysis confirmed the existence of synthesized nanodiamond and nano-carbon mixed phase with defects associated with it. It is concluded that graphene quantum dots, nanodiamonds, graphene sheets and carbon dots present in coal can be extracted by simple chemical treatment. These structures can be tuned to photoluminescent material for various optoelectronic applications or energy harvesting devices like super capacitors.

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Wrinkled graphene: synthesis and characterization of few layer graphene-like nanocarbons from kerosene

Cited by 28 publications

References 17 publications

Extraction and Characterization of Preformed Mixed Phase Graphene Sheets from Graphitized Sub-Bituminous Coal

Extraction and Characterization of Preformed Mixed Phase Graphene Sheets from Graphitized Sub-Bituminous Coal

Synthesis of Graphene Oxide Nano Structures from Kerosene Soot and its Impedance Analysis

Facile synthesis of preformed mixed nano-carbon structure from low rank coal

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