B. Rand scite author profile

Electron energy loss spectroscopy (EELS) in the transmission electron microscope (TEM) is explored as a useful characterization technique in the study of carbonization and graphitization of organic precursors. A model series of carbon materials was prepared from highly graphitizable petroleum pitch heat treated in the range 200-2730 C. Initial characterization was performed using the established techniques of X-ray diffraction (XRD), He pycnometry, TEM, electron diffraction and high-resolution lattice imaging (HREM). EELS in the TEM was then examined. Two routes are presented to quantify the change in the proportion of sp 2 type hybridization accompanying the heat treatment as the material transforms to the graphitic state. Both routes suggest an initial relative sp 2 content of $70%, rapidly increasing to $90% during mesophase development and carbonization, and then slowly increasing to 100% during graphitization. The peak position of the bulk valence plasmon ( þ ) is shown to be an excellent measure of the degree of graphitic character, and its fundamental dependence upon sample density () is confirmed. The appearance and definition of features within the core loss region representing the density of unoccupied * states are demonstrated to be an excellent measure of the extent of order. Finally, a method is established by which to extract the C-C bond length from core loss EELS spectra with an accuracy of AE0.1 pm. This method suggests an average bond length of 1.44 Å in samples with low heat treatment temperatures, decreasing to the theoretical length of 1.42 Å as both the heteroatom content and proportion of non-sp 2 -type hybridized carbon atoms decrease.

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Characterization of Barium Titanate Powders: Barium Carbonate Identification

López

Fourlaris

Rand

et al. 1999

Journal of the American Ceramic Society

184

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A range of methods for the detection of barium carbonate contaminant in barium titanate powder has been assessed, namely: X-ray diffraction (XRD), scanning electron microscopy (SEM), with EDS-X-ray microanalysis, Fourier transform infrared spectroscopy (FT-IR), thermogravimetric analysis (TGA), gas chromatography (GC) for analysis of carbon, and X-ray photoelectron spectroscopy (XPS). The most satisfactory procedure for the detection of the small amounts of BaCO 3 commonly present is FT-IR. Surface analyses by XPS show that the carbonate is present as a discrete phase and is not a surface film on barium titanate particles.

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Investigating the structure of non-graphitising carbons using electron energy loss spectroscopy in the transmission electron microscope

Zhang

Brydson

Aslam

et al. 2011

Carbon

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The properties of aqueous phase suspensions of barium titanate

Blanco‐López

Rand

Riley

1997

Journal of the European Ceramic Society

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Investigation into the existence of edge—face coagulated structures in Na-montmorillonite suspensions

Rand¹,

Pekenć²,

Goodwin³

et al. 1980

J. Chem. Soc., Faraday Trans. 1

128

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B. Rand

Investigating carbonization and graphitization using electron energy loss spectroscopy (EELS) in the transmission electron microscope (TEM)

Characterization of Barium Titanate Powders: Barium Carbonate Identification

Investigating the structure of non-graphitising carbons using electron energy loss spectroscopy in the transmission electron microscope

The properties of aqueous phase suspensions of barium titanate

Investigation into the existence of edge—face coagulated structures in Na-montmorillonite suspensions

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