http://www.cnr.it/ontology/cnr/individuo/prodotto/ID280181
QUANTITATIVE ANALYSIS OF AROMATIC HYDROGEN FOR DETERMINING THE STRUCTURE OF POLYAROMATIC SYSTEMS TYPICAL OF CARBON MATERIALS. CASE STUDY: ANTHRACENE OIL (Abstract/Poster in atti di convegno)
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- QUANTITATIVE ANALYSIS OF AROMATIC HYDROGEN FOR DETERMINING THE STRUCTURE OF POLYAROMATIC SYSTEMS TYPICAL OF CARBON MATERIALS. CASE STUDY: ANTHRACENE OIL (Abstract/Poster in atti di convegno) (literal)
- Anno
- 2014-01-01T00:00:00+01:00 (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#doi
- 10.4405/profic2014.B23 (literal)
- Alternative label
C. Russo, F. Stanzione, A. Tregrossi, A. Ciajolo (2014)
QUANTITATIVE ANALYSIS OF AROMATIC HYDROGEN FOR DETERMINING THE STRUCTURE OF POLYAROMATIC SYSTEMS TYPICAL OF CARBON MATERIALS. CASE STUDY: ANTHRACENE OIL
in Joint Meeting: French and Italian Sections - IFRF and The Combustion Institute, Pisa, 23-24 Aprile 2014
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- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
- C. Russo, F. Stanzione, A. Tregrossi, A. Ciajolo (literal)
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- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#titoloVolume
- Joint Meeting: French and Italian Sections - IFRF and The Combustion Institute - Abstract Book (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#pagineTotali
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- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#affiliazioni
- Istituto di Ricerche sulla Combustione (IRC-CNR), P.le Tecchio 80, Napoli, Italy (literal)
- Titolo
- QUANTITATIVE ANALYSIS OF AROMATIC HYDROGEN FOR DETERMINING THE STRUCTURE OF POLYAROMATIC SYSTEMS TYPICAL OF CARBON MATERIALS. CASE STUDY: ANTHRACENE OIL (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#isbn
- 978-88-88104-16-4 (literal)
- Abstract
- Polyaromatic systems constitute the basic structural units of many natural, industrial and
anthropogenic carbon materials as coal, heavy petroleum-derived fractions, carbon black,
pitch, soot, graphene-like materials, etc.. The number of aromatic hydrogens and their
distribution at the edge of the polyaromatic moieties feature their structure and reactivity. It
is, thus, important to differentiate and quantify the different kinds of aromatic hydrogen.
This can be done by specific techniques sensitive to hydrogen neighbors, (i.e. the number
of different environments the hydrogen atoms are in) as XRD analysis, NMR and FT-IR
spectroscopy. In this work a FT-IR based method was implemented for the quantitative
analysis of aromatic hydrogen considering anthracene oil as a case study for testing the
technique. Anthracene oil is distilled from coal tar and is composed of high-boiling threeto
five-ring aromatic compounds with masses lower than 300u that could be completely
quantified by GC-MS analysis. A map of the aromatic hydrogen distribution in the
anthracene oil could be obtained for the comparison with the aromatic hydrogen as
measured by the FT-IR method used in this work.
The FT-IR spectroscopic analysis is sensitive to different carbon-hydrogen bonding
producing different C-H vibration peaks in the FT-IR spectrum. For aromatic hydrogen, the
corresponding C-H stretching gives rise to a high-frequency absorption around 3000 cm-1,
while aromatic C-H out-of-plane (OPLA) bending modes occur between 600 and
1000 cm-1. The detailed analysis of specific OPLA vibrational bands occurring in the
anthracene oil FT-IR spectrum was carried out. On the basis of the literature and by
comparison with the measured spectra of aromatic standard species, isolated hydrogens
(SOLO) were assigned to the peaks detected in the 890-870 cm-1 range (9-methylanthracene
at 886 cm-1, anthracene at 884 cm-1) whereas two-adjacent hydrogens (DUO)
peaks are located between 850 and 810 cm-1 (1-methyl-pyrene at 840 cm-1, coronene at
847 cm-1, phenanthrene at 817 cm-1). Three-adjacent hydrogens (TRIO) peaks are located
in the 790-750 cm-1 region (1-methyl-pyrene at 755 cm-1, acenaphthene at 784 cm-1,
fluoranthene at 775 cm-1). Four-adjacent hydrogens (QUATRO) peaks are detected in the
750-720 cm-1 region (9-methyl-anthracene at 723 cm-1, anthracene at 725 cm-1,
phenanthrene at 731 cm-1, fluoranthene at 746 cm-1).
The quantitative FT-IR analysis involved the spectral deconvolution of the aromatic C-H
bending region and the calculation of calibration factors of diverse aromatic standard
species. The distribution of aromatic hydrogen derived from GC-MS analysis was
calculated and compared with that derived from FT-IR analysis.
The results showed a good agreement and the FT-IR method appear to be promising and
useful for the analysis of carbon edges of more complex carbon materials. (literal)
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