期刊
ANALYTICAL CHEMISTRY
卷 84, 期 16, 页码 7131-7137出版社
AMER CHEMICAL SOC
DOI: 10.1021/ac301307p
关键词
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资金
- NSF Division of Materials Research [DMR-06-54118]
- Florida State University Future Fuels Institute
- State of Florida
We present atmospheric pressure laser-induced acoustic desorption chemical ionization (AP/LIAD-CI) with O-2 carrier/reagent gas as a powerful new approach for the analysis of saturated hydrocarbon mixtures. Nonthermal sample vaporization with subsequent chemical ionization generates abundant ion signals for straight-chain, branched, and cycloalkanes with minimal or no fragmentation. [M - H](+) is the dominant species for straight-chain and branched alkanes. For cycloalkanes, M+center dot species dominate the mass spectrum at lower capillary temperature (<100 degrees C) and [M - H](+) at higher temperature (>200 degrees C). The mass spectrum for a straight-chain alkane mixture (C-21-C-40) shows comparable ionization efficiency for all components. AP/LIAD-CI produces molecular weight distributions similar to those for gel permeation chromatography for polyethylene polymers, Polywax 500 and Polywax 655. Coupling of the technique to Fourier transform ion cyclotron resonance mass spectrometry (FTICR MS) for the analysis of complex hydrocarbon mixtures provides unparalleled mass resolution and accuracy to facilitate unambiguous elemental composition assignments, e.g., 1754 peaks (rms error = 175 ppb) corresponding to a paraffin series (C-12-C-49, double-bond equivalents, DBE = 0) and higher DBE series corresponding to cycloparaffins containing one to eight rings. Isoabundance-contoured plots of DBE versus carbon number highlight steranes (DBE = 4) of carbon number C-27-C-30 and hopanes of C-29-C-35 (DBE = 5), with sterane-to-hopane ratio in good agreement with field ionization (FI) mass spectrometry analysis, but performed at atmospheric pressure. The overall speciation of nonpolar, aliphatic hydrocarbon base oil species offers a promising diagnostic probe to characterize crude oil and its products.
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