Microstructure of carbon blacks determined by X-ray diffraction profile analysis

Ungár, Tamás; Gubicza, Jenő; Ribárik, Gabor; Pantea, Cristian; Żerda, T. W.

doi:10.1016/s0008-6223(01)00224-x

Cited by 199 publications

(107 citation statements)

References 22 publications

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“…2 are normalized toward the peak observed at 2θ=20-26°; the vertical lines mark the position of the tabulated graphite peaks. The patterns of similar characteristics are rather typical for a disordered carbon phase [17], including the so-called short-range graphite or turbostratic structure of the sample [18,19].…”

Section: Resultsmentioning

confidence: 85%

Effect of structural properties of carbon-based fuels on efficiency of direct carbon fuel cells

Dudek

Sitarz

Tomczyk

2014

J Solid State Electrochem

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This research is focused on the effect of supplying solid oxide fuel cells with different graphite and carbon black powders on the cells' efficiency. Before being tested in the fuel cell, the structures of carbon-based fuels were characterized by X-ray diffraction analysis, Raman spectroscopy, scanning electron microscopy, and thermal analysis method (DTA/TG). Total electrical conductivity measurements were also carried out for carbon samples. The relation between the structure and morphology of solid particles and their performance in direct carbon solid oxide fuel cells (DC-SOFC) was presented and discussed. It was found that structurally disordered carbon-based materials are the most promising fuels for oxidation in DC-SOFCs.

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Section: Resultsmentioning

confidence: 85%

Effect of structural properties of carbon-based fuels on efficiency of direct carbon fuel cells

Dudek

Sitarz

Tomczyk

2014

J Solid State Electrochem

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“…The effect of graphitization and pressure treatment on the microstructure and internal stresses of carbon blacks is studied by XLPA [118,119]. The Fourier transforms of the experimental line profiles are fitted by theoretical functions based on the model of the microstructure.…”

Section: Carbon and Diamondmentioning

confidence: 99%

Nanocrystalline materials studied by powder diffraction line profile analysis

Ungár¹,

Gubicza²

2007

Zeitschrift Für Kristallographie - Crystalline Materials

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Abstract. X-ray powder diffraction is a powerful tool for characterising the microstructure of crystalline materials in terms of size and strain. It is widely applied for nanocrystalline materials, especially since other methods, in particular electron microscopy is, on the one hand tedious and time consuming, on the other hand, due to the often metastable states of nanomaterials it might change their microstructures. It is attempted to overview the applications of microstructure characterization by powder diffraction on nanocrystalline metals, alloys, ceramics and carbon base materials. Whenever opportunity is given, the data provided by the X-ray method are compared and discussed together with results of electron microscopy. Since the topic is vast we do not try to cover the entire field.

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“…With the addition of CNP into the PU matrix, the crystalline peak of PU at 21 was decreased because CNP seems to hinder the crystallization of PU molecules, and the new peaks for CNP appeared at 25 and 44. This presents graphite-like quasi-crystalline domains [12]. …”

Section: Resultsmentioning

confidence: 99%

Nanostructured solar irradiation control materials for solar energy conversion

et al. 2013

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Tailoring the solar absorptivity ( s ) and thermal emissivity ( T ) of materials constitutes an innovative approach to solar energy control and energy conversion. Numerous ceramic and metallic materials are currently available for solar absorbance/thermal emittance control. However, conventional metal oxides and dielectric/metal/dielectric multi-coatings have limited utility due to residual shear stresses resulting from the different coefficient of thermal expansion of the layered materials. This research presents an alternate approach based on nanoparticle-filled polymers to afford mechanically durable solar-absorptive and thermally-emissive polymer nanocomposites. The  s and  T were measured with various nano inclusions, such as carbon nanophase particles (CNPs), at different concentrations. Research has shown that adding only 5 wt% CNPs increased the  s and  T by a factor of about 47 and 2, respectively, compared to the pristine polymer. The effect of solar irradiation control of the nanocomposite on solar energy conversion was studied. The solar irradiation control coatings increased the power generation of solar thermoelectric cells by more than 380% compared to that of a control power cell without solar irradiation control coatings.

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Microstructure of carbon blacks determined by X-ray diffraction profile analysis

Cited by 199 publications

References 22 publications

Effect of structural properties of carbon-based fuels on efficiency of direct carbon fuel cells

Effect of structural properties of carbon-based fuels on efficiency of direct carbon fuel cells

Nanocrystalline materials studied by powder diffraction line profile analysis

Nanostructured solar irradiation control materials for solar energy conversion

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