The high‐mass component (&gt;<i>m/z</i> 10 000) of coal tar pitch by matrix‐assisted laser desorption/ionisation mass spectrometry and size‐exclusion chromatography

Millán, Marcos; Morgan, Trevor; Behrouzi, Mahtab; Karaca, Fatma; Galmes, Carolina; Herod, Alan A.; Kandiyoti, R.

doi:10.1002/rcm.1997

Cited by 30 publications

(42 citation statements)

References 16 publications

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“…Although much more species were detected by ASAP-TOF MS and ESI-Orbitrap MS, only a tiny portion of the species was hydrocarbons. Unlike previous report analyzing coal derived liquids using MALDI-MS [17], carbon number of the compounds detected by GC/MS and ASAP-TOF MS was less than 20 (a relatively low molecular weight compared to molecules identified by MALDI-MS), and the corresponding DBE mainly distributed between 0-10. Furthermore, there was an approximate linear relationship between the DBE value and carbon number, which was also found in middle-temperature coal tar due to the increase of double bond or aromatic ring [43].…”

Section: Characterization Using Esi-orbitrap Mscontrasting

confidence: 77%

“…Broader molecular mass distributions were detected from coal-derived liquids compared to other mass spectrometric techniques [17], because laser desorption ionization could ionize molecules with relatively higher molecular mass [18]. Compared to LD-MS, MALDI-MS improves the sensitivity to high-mass material and expands the detection range of molecular mass up to m/z 270,000 for fossil fuels [14,19,20].…”

Section: Introductionmentioning

confidence: 99%

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Molecular characterization of heteroatomic compounds in a high-temperature coal tar using three mass spectrometers

Zhu

Fan

Wei

et al. 2015

Fuel Processing Technology

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Section: Characterization Using Esi-orbitrap Mscontrasting

confidence: 77%

Section: Introductionmentioning

confidence: 99%

Molecular characterization of heteroatomic compounds in a high-temperature coal tar using three mass spectrometers

Zhu

Fan

Wei

et al. 2015

Fuel Processing Technology

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“…The PL wavelength was the shortest (429 nm) for solution 1a (cyclohexane) and the longest (550 nm) for solution 1f (CHCl 3 ). Most importantly, the PL wavelength of the coal tar pitch solution could be controlled by appropriate choice of the solvent, similar to a previously reported case in which the PL spectra in two different solvents were compared [17], [28].…”

Section: Resultssupporting

confidence: 73%

Preparation of Organic Light-Emitting Diode Using Coal Tar Pitch, a Low-Cost Material, for Printable Devices

et al. 2013

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We have identified coal tar pitch, a very cheap organic material made from coal during the iron-making process, as a source from which could be obtained emissive molecules for organic light-emitting diodes. Coal tar pitch was separated by simple dissolution in organic solvent, and subsequent separation by preparative thin-layer chromatography was used to obtain emissive organic molecules. The retardation factor of preparative thin-layer chromatography played a major role in deciding the emission characteristics of the solution as photoluminescence spectra and emission-excitation matrix spectra could be controlled by modifying the solution preparation method. In addition, the device characteristics could be improved by modifying the solution preparation method. Two rounds of preparative thin-layer chromatography separation could improve the luminance of organic light-emitting diodes with coal tar pitch, indicating that less polar components are favorable for enhancing the luminance and device performance. By appropriate choice of the solvent, the photoluminescence peak wavelength of separated coal tar pitch could be shifted from 429 nm (cyclohexane) to 550 nm (chloroform), and consequently, the optical properties of the coal tar pitch solution could be easily tuned. Hence, the use of such multicomponent materials is advantageous for fine-tuning the net properties at a low cost. Furthermore, an indium tin oxide/poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate)/coal tar pitch/LiF/Al system, in which the emissive layer was formed by spin-coating a tetrahydrofuran solution of coal tar pitch on the substrate, showed a luminance of 176 cd/m2. In addition, the emission spectrum of coal tar pitch was narrowed after the preparative thin-layer chromatography process by removing the excess emissive molecules.

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“…The presence of components excluded from the porosity of the SEC column, eluting between 9-13 min may be interpreted as showing the presence of large molecules, and/or possibly indicating the presence of three-dimensional structures or conformations (eluting earlier than would be warranted by their molecular masses alone) rather than of aggregates of the small polar components [1,24,25] of coal tars, identified by GC-MS analysis. The first pentane fraction chromatograms showed some low intensity excluded material in the coal derived liquids.…”

Section: Resultsmentioning

confidence: 99%

The Pentane- and Toluene-Soluble Fractions of a Petroleum Residue and three Coal Tars by Size Exclusion Chromatography and UV-Fluorescence Spectroscopy

Karaca

Millán

Morgan

et al. 2007

Oil & Gas Science and Technology - Rev. IFP

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Résumé -Les fractions solubles dans le pentane et le toluène d'un résidu pétrolier et de trois échantillons de goudron de charbons par chromatographie d'exclusion stérique et par spectroscopie de fluorescence -Un résidu pétrolier de distillation atmosphérique ainsi que trois échantillons de goudron issus des pyrolyses de différents charbons sont séparés en sept fractions par chromatographie liquide sur gel de silice. Les solvants utilisés successivement sont : le pentane, le toluène, l'acétonitrile, la pyridine, la 1-methyl-2-pyrrolidinone (NMP) et l'eau permettant l'obtention de 7 fractions. Les fractions obtenues pour chacun des quatre échantillons sont ensuite comparées par chromatographie d'exclusion stérique (SEC) au moyen d'NMP comme éluant, puis par spectroscopie de fluorescence. Cet article traite uniquement le cas des fractions solubles dans le pentane et le toluène, car étant les moins polaires. D'après les analyses SEC, la taille des molécules aromatiques entre les premières fractions solubles dans le pentane et celles solubles dans le toluène augmente. Ainsi, les fractions du résidu pétrolier possèdent des molécules de plus grande taille que celles extraites, par le même solvant, pour les différents goudrons. Les trois échantillons de goudrons montrent des différences significatives, indiquant que la température de pyrolyse joue un rôle important sur la taille des molécules. Les résultats de spectroscopie, en solution NMP, montrent également de grandes différences entre le résidu pétrolier et les trois goudrons, de même que ces trois derniers sont différents entre eux. En général, les fractions du résidu pétrolier contiennent de plus petits groupes aromatiques que les fractions liquides issues du charbon. Ces fractions de faible polarité, contenant des éléments exclus par la colonne chromatographique, ont peu de chance d'être des agrégats de molécules polaires. Abstract

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The high‐mass component (>m/z 10 000) of coal tar pitch by matrix‐assisted laser desorption/ionisation mass spectrometry and size‐exclusion chromatography

Cited by 30 publications

References 16 publications

Molecular characterization of heteroatomic compounds in a high-temperature coal tar using three mass spectrometers

Molecular characterization of heteroatomic compounds in a high-temperature coal tar using three mass spectrometers

Preparation of Organic Light-Emitting Diode Using Coal Tar Pitch, a Low-Cost Material, for Printable Devices

The Pentane- and Toluene-Soluble Fractions of a Petroleum Residue and three Coal Tars by Size Exclusion Chromatography and UV-Fluorescence Spectroscopy

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