Raman spectroscopy of graphene on different substrates and influence of defects

Das, Anindya; Chakraborty, Biswanath; Sood, A. K.

doi:10.1007/s12034-008-0090-5

Cited by 579 publications

(400 citation statements)

References 23 publications

(37 reference statements)

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“…All of the types of investigated graphene exhibited very similar Raman spectra. This confirmed the presence of single/bilayer graphene with a typical ratio of intensity and a full width at half maximum (FWHM) of the selected Raman peaks (Table 2) [19,20]. Based on the SEM and TEM analyses (Fig.…”

Section: Mechanisms Of Graphene Growthsupporting

confidence: 69%

High Strength Metallurgical Graphene – Mechanisms of Growth and Properties / Grafen Metalurgiczny O Wysokiej Wytrzymałości – Mechanizmy Wzrostu I Właściwości

Kula

Szymański

Kołodziejczyk

et al. 2015

Archives of Metallurgy and Materials

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In this work, the growth mechanisms of chemical vapor deposited and metallurgical graphene and their selected mechanical and electrical properties were investigated. The study revealed the influence of the growth mechanisms on monoand poly-crystalline nanostructures of synthesized graphene monolayers. The structure of flake boundaries greatly affects both the mechanical and electrical properties. The key factors are overlapping of the graphene flakes, their degree of mismatch and the presence of π type bonds. all of these issues should be taken into account when developing industrially scaled technologies for graphene manufacturing.Keywords: graphene; growth mechanism; electrical properties W pracy przedstawiono wyniki badań mechanizmów wzrostu oraz wybranych właściwości mechanicznych i elektrycznych grafenu chemicznie osadzanego z fazy gazowej oraz grafenu metalurgicznego. badania wykazały wpływ mechanizmów wzrostu na mono-i polikrystaliczne nanostruktury syntetyzowanych monowarstw grafenu. Struktura granic płatków grafenu znacząco wpływa zarówno na właściwości mechaniczne jak i elektryczne. Kluczowymi czynnikami są: nakładanie się płatków grafenu, stopień ich niedopasowania oraz obecność wiązań typu π. Wszystkie te aspekty powinny być brane pod uwagę przy opracowywaniu technologii produkcji grafenu na skalę przemysłową.

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Section: Mechanisms Of Graphene Growthsupporting

confidence: 69%

High Strength Metallurgical Graphene – Mechanisms of Growth and Properties / Grafen Metalurgiczny O Wysokiej Wytrzymałości – Mechanizmy Wzrostu I Właściwości

Kula

Szymański

Kołodziejczyk

et al. 2015

Archives of Metallurgy and Materials

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“…20 The decreased I 2D /I G ratio (0.28) in VGNH-45 suggests its multilayer nature and a reduced lateral coherence length because of vertical termination. 23,24,25 The large I D /I G ratio in both samples indicates the presence of defects within the graphene sheets, which are indeed beneficial for electrocatalytic reactions.…”

Section: Resultsmentioning

confidence: 94%

Superaerophobic graphene nano-hills for direct hydrazine fuel cells

et al. 2017

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Hydrazine fuel-cell technology holds great promise for clean energy, not only because of the greater energy density of hydrazine compared to hydrogen but also due to its safer handling owing to its liquid state. However, current technologies involve the use of precious metals (such as platinum) for hydrazine oxidation, which hinders the further application of hydrazine fuel-cell technologies. In addition, little attention has been devoted to the management of gas, which tends to become stuck on the surface of the electrode, producing overall poor electrode efficiencies. In this study, we utilized a nano-hill morphology of vertical graphene, which efficiently resolves the issue of the accumulation of gas bubbles on the electrode surface by providing a nano-rough-edged surface that acts as a superaerophobic electrode. The growth of the vertical graphene nano-hills was achieved and optimized by a scalable plasma-enhanced chemical vapor deposition method. The resulting metal-free graphene-based electrode showed the lowest onset potential (−0.42 V vs saturated calomel electrode) and the highest current density of all the carbon-based materials reported previously for hydrazine oxidation.

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“…For an SLG, I G /I 2D intensity ratio is ∼0.24 which increases with the number of graphene layers thus making it possible to estimate the thickness of graphene layers. [21,22] In this regard, it is well known that the I G /I 2D ratio increases up to six to eight layers. In order to measure the actual thickness of the graphene sample and obtain the number of layers, sensitive metrology techniques such as AFM analysis or a high resolution TEM technique may be utilized.…”

Section: Resultsmentioning

confidence: 95%

Nanopatterned Graphene Field Effect Transistor Fabricated Using Block Co-polymer Lithography

Choi

Kuru

Choi

et al. 2014

Materials Research Letters

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We demonstrate a successful fabrication of Nanopatterned Graphene (NPG) using a PS-b-P4VP polymer, which was never used previously for the graphene patterning. The NPG exhibits homogeneous mesh structures with an average neck width of ∼19 nm. Electronic characterization of single and few layers NPG FETs (field effect transistors) were performed at room temperature. We found that the sub-20 nm neck width creates a quantum confinement in NPG, which has led to a bandgap opening of ∼0.08 eV. This work also demonstrates that BCP (block co-polymer) lithography is a pathway for low-cost, high throughput large-scale production of NPG with critical dimensions down to the nanometer regime.

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Raman spectroscopy of graphene on different substrates and influence of defects

Cited by 579 publications

References 23 publications

High Strength Metallurgical Graphene – Mechanisms of Growth and Properties / Grafen Metalurgiczny O Wysokiej Wytrzymałości – Mechanizmy Wzrostu I Właściwości

High Strength Metallurgical Graphene – Mechanisms of Growth and Properties / Grafen Metalurgiczny O Wysokiej Wytrzymałości – Mechanizmy Wzrostu I Właściwości

Superaerophobic graphene nano-hills for direct hydrazine fuel cells

Nanopatterned Graphene Field Effect Transistor Fabricated Using Block Co-polymer Lithography

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