Graphene Oxide vs Reduced Graphene Oxide as saturable absorbers for Er-doped passively mode-locked fiber laser

Soboń, Grzegorz; Sotor, Jarosław; Jagiełło, Joanna; Koziński, Rafał; Zdrojek, Mariusz; Hołdyński, Marcin; Pałetko, Piotr; Bogusławski, Jakub; Lipińska, L.; Abramski, Krzysztof M.

doi:10.1364/oe.20.019463

Cited by 394 publications

(206 citation statements)

References 38 publications

(70 reference statements)

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“…Based on these observations, we may conclude that the hydrazine treatment results in a limited reduction of GO, since oxygen-containing functionalities still exist in the final product and it is clear that the rGO material synthesised in this work is only partially reduced graphene oxide. However, according to the literature this result is rather expected [15,51,52,59]. Additionally, the XPS survey spectra of rGO revealed a small N 1s peak (see Figure 3).…”

Section: Surface Characterisation Of Graphene-family Nanomaterialssupporting

confidence: 59%

“…284.5 eV and it is well-known that this corresponds to the sp 2 carbon. Additionally, the XPS spectra of GO (data not displayed) and rGO (see Figure 3c) revealed another peak around 286.4 eV presumably attributed to the C-O species (e.g., hydroxyl and epoxy groups) [37,47,51,52]. According to the literature, GO should also consist carboxylic and carbonyl groups, which decorate the edge sites, whereas hydroxyl and epoxy groups are present on the basal plane of a GO sheet [15,30].…”

Section: Surface Characterisation Of Graphene-family Nanomaterialsmentioning

confidence: 91%

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An Oxygen Reduction Study of Graphene-Based Nanomaterials of Different Origin

et al. 2016

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Abstract:The aim of this study is to compare the electrochemical behaviour of graphene-based materials of different origin, e.g., commercially available graphene nanosheets from two producers and reduced graphene oxide (rGO) towards the oxygen reduction reaction (ORR) using linear sweep voltammetry, rotating disc electrode and rotating ring-disc electrode methods. We also investigate the effect of catalyst ink preparation using two different solvents (2-propanol containing OH´ionomer or N,N-dimethylformamide) on the ORR. The graphene-based materials are characterised by scanning electron microscopy, transmission electron microscopy, Raman spectroscopy and X-ray photoelectron spectroscopy. Clearly, the catalytic effect depends on the origin of graphene material and, interestingly, the electrocatalytic activity of the catalyst material for ORR is lower when using the OH´ionomer in electrode modification. The graphene electrodes fabricated with commercial graphene show better ORR performance than rGO in alkaline solution.

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Section: Surface Characterisation Of Graphene-family Nanomaterialssupporting

confidence: 59%

Section: Surface Characterisation Of Graphene-family Nanomaterialsmentioning

confidence: 91%

An Oxygen Reduction Study of Graphene-Based Nanomaterials of Different Origin

et al. 2016

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“…The D-peak of GO, GO coated Cu, and chemically reduced GO coated Cu located at 1352 cm −1 , 1349 cm −1 , and 1345 cm −1 , respectively, are attributed to defects induced in graphene nano-sheets or their agglomeration. The G-peak for GO, GO coated Cu at 1603 cm −1 , and for chemically reduced GO coated Cu at 1589 cm −1 is due to the first order scattering of the E2g phonon of sp 2 C-atoms [44]. The absence of two-dimensional (2D)-band in graphene oxide indicates that all graphite layers have been oxidized after oxidation, while the presence of this band in reduced GO coated Cu confirms that the product is composed of a few layered graphene.…”

Section: Characterization Of Coatingmentioning

confidence: 98%

Graphene Coating on Copper by Electrophoretic Deposition for Corrosion Prevention

et al. 2017

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Abstract:In this paper, we report the use of a simple and inexpensive electrophoretic deposition (EPD) technique to develop thin, uniform, and transparent graphene oxide (GO) coating on copper (Cu) substrate on application of 10 V for 1 s from an aqueous suspension containing 0.03 wt % graphene oxide. GO was partially reduced during the EPD process itself. The GO coated on Cu was completely reduced chemically by using sodium borohydride (NaBH 4 ) solution. The coatings were characterized by field emission scanning electron microscope (FESEM), Raman spectroscopy, Fourier-transform infrared spectroscopy (FTIR), XRD, and UV/VIS spectrophotometry. Corrosion resistance of the coatings was evaluated by electrochemical measurements under accelerated corrosion condition in 3.5 wt % NaCl solution. The GO coated on Cu and chemically reduced by NaBH 4 showed more positive corrosion potential (E corr ) (−145.4 mV) compared to GO coated on Cu (−182.2 mV) and bare Cu (−235.3 mV), and much lower corrosion current (I corr ) (7.01 µA/cm 2 ) when compared to 15.375 µA/cm 2 for bare Cu indicating that reduced GO film on copper exhibit enhanced corrosion resistance. The corrosion inhibition efficiency of chemically reduced GO coated Cu was 54.40%, and its corrosion rate was 0.08 mm/year as compared to 0.18 mm/year for bare copper.

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“…The untreated GO foil high-resolution C1s XPS spectrum (see fig.6a) consists of a peak at about 285.0 eV, followed by a second large structure at about 288.0 eV that can be fit to peaks at about 286.8 eV and at 288.4 eV. These features can be attributed to C-C and C=C bonds (which cannot be detected separately due to the XPS spectrometer resolution), C-O (in epoxy and hydroxyl groups) and C=O (in carbonyl groups) links, respectively [11].…”

Section: Fig 5 Rbs Spectra Relative To the Pristine Go (A) And To Tmentioning

confidence: 99%

Physical investigations on the radiation damage of graphene oxide by IR pulsed laser

Silipigni

Torrisi

Cutroneo

2018

EPJ Web of Conferences

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Abstract. Graphene oxide foils were irradiated by Nd:YAG laser at the moderated intensities of the order of 10 8 W/cm 2 in vacuum. Measurements of atomic emission during the laser irradiation were performed with ion collectors and mass spectrometry, demonstrating a strong emission of carbon, oxygen and hydrogen atoms. Further investigations of the irradiated graphene oxide foils were carried out on pristine and laser irradiated samples by using Rutherford backscattering spectrometry and X-ray photoelectron spectroscopy. Results indicate that graphene oxide losses oxygen and hydrogen during the irradiation, changing its carbon content and its chemical and physical properties.

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Graphene Oxide vs Reduced Graphene Oxide as saturable absorbers for Er-doped passively mode-locked fiber laser

Cited by 394 publications

References 38 publications

An Oxygen Reduction Study of Graphene-Based Nanomaterials of Different Origin

An Oxygen Reduction Study of Graphene-Based Nanomaterials of Different Origin

Graphene Coating on Copper by Electrophoretic Deposition for Corrosion Prevention

Physical investigations on the radiation damage of graphene oxide by IR pulsed laser

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