Optimization of Atmospheric Pressure Photoionization for the Crude Oil Analysis Using Ultra-High Resolution Mass Spectrometry

Santos, Jandyson M.; Pudenzi, Marcos A.; Wisniewski, Alberto; Breitkreitz, Márcia Cristina; Eberlin, Marcos N.

doi:10.21577/0103-5053.20180214

Cited by 6 publications

(4 citation statements)

References 26 publications

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“…Design of experiments (DoE) has previously been used to optimize experimental parameters for ESI 48 and APPI-FTICR MS 49 analysis of petroleum samples, with an flow rate of 3000 μL h −1 that is suggested to be optimal for positive-mode (+) APPI analysis of crude oils. 50 However, the responses considered were factors such as the maximum intensity, total number of ions, or molecular classes generated; the R/P was not reported. In this work, DoE was carried out with R/P as the response factor to improve understanding of the impact of the solvent system, sample concentration, and flow rate on the observed (+) APPI profile.…”

Section: Hv Dmentioning

confidence: 99%

“…Design of experiments (DoE) has previously been used to optimize experimental parameters for ESI and APPI-FTICR MS analysis of petroleum samples, with an flow rate of 3000 μL h –1 that is suggested to be optimal for positive-mode (+) APPI analysis of crude oils . However, the responses considered were factors such as the maximum intensity, total number of ions, or molecular classes generated; the R/P was not reported.…”

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Solvent and Flow Rate Effects on the Observed Compositional Profiles and the Relative Intensities of Radical and Protonated Species in Atmospheric Pressure Photoionization Mass Spectrometry

et al. 2022

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Sample preparation and instrument parameters have regularly been demonstrated to impact upon the observed results in atmospheric pressure photoionization, mass spectrometry (MS), and analytical techniques in general but may be overlooked when such methods are applied to the characterization of real-world samples. An initial investigation into different solvent systems demonstrated that the inclusion of ethyl acetate inverted the ratio of relative intensities of radical and protonated species (R/P). Design of experiments was performed and indicated that the injection flow rate is also a significant factor. The impact of the solvent system and flow rate on signal intensity, the observed compositional profile, and R/P of selected molecular groups is demonstrated further. An inversion of R/P is observed at higher flow rates in solvent systems commonly used in petroleomics studies, effecting a loss of molecular speciation. The findings presented reiterate the critical importance in considering experimental parameters when interpreting the results of analytical procedures.

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Section: Hv Dmentioning

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confidence: 99%

Solvent and Flow Rate Effects on the Observed Compositional Profiles and the Relative Intensities of Radical and Protonated Species in Atmospheric Pressure Photoionization Mass Spectrometry

et al. 2022

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“…Since PAHs have an ionisation energy smaller than 10 eV, their direct ionisation can be performed thanks to photons from the krypton lamp [30]. Moreover, several works showed that APPI in positive mode is one the most suitable and efficient atmospheric pressure ionisation source for PAHs ionisation [31][32][33]. The first dimension of the three-dimensional method, CPC, allows a separation according to the alkylation stage of the hydrocarbons whereas the second one, SFC, is based on their double bond equivalent (DBE).…”

Section: Introductionmentioning

confidence: 99%

A three-dimensional semi-quantitative method to monitor the evolution of polycyclic aromatic hydrocarbons from vacuum gas oil feedstocks to lighter products

Reymond

Masle

Colas

et al. 2021

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“…Many studies dealing with a petroleomic approach have applied Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR/MS), which is one of the most powerful techniques to go deeper into the characterization of heavy oils thanks to its ultrahigh resolution. − Among the available ionization sources, the positive ion mode atmospheric pressure photoionization source [(+)APPI] seemed to be the most efficient one for HPAH ionization. − Moreover, dopants are usually employed to increase the ionization efficiency, such as toluene, − chlorobenzene, , anisole, or a mix of several compounds. , However, mass spectrometry alone cannot resolve the complexity of petroleum samples mainly due to (1) ionization discrimination and (2) the presence of isomeric species. Subfractionation can be performed prior to mass spectrometry analysis, such as the SARA fractionation method, which separates samples into four major classes of compounds (saturates, aromatics, resins, and asphaltenes), mainly on the basis of solubility and affinity for absorption on a solid granular packing column. , Basically, the first step consists of isolation by precipitation of the asphaltenes by adding an excess of alkane solvent (hexane or heptane).…”

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Input of an Off-Line, Comprehensive, Three-Dimensional Method (CPC×SFC/HRMS) to Quantify Polycyclic Aromatic Hydrocarbons in Vacuum Gas Oils

et al. 2020

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Heavy polycyclic aromatic hydrocarbons (HPAHs) are known to cause undesirable effects in petroleum hydrocracking processes by deactivating the catalysts and accumulating in the downstream of reactors. Polycyclic aromatic hydrocarbons with less than seven rings (PAHs) naturally contained in vacuum gas oils (VGOs) act as precursors in the HPAHs formation. However, getting a detailed quantitative characterization of such polycyclic hydrocarbons has never been done until now, because of the high chemical complexity of VGOs. Thus, an off-line, comprehensive, three-dimensional methodology was required to achieve a quantitative analysis: centrifugal partition chromatography (CPC) as the first dimension of separation, supercritical fluid chromatography (SFC) as the second dimension hyphenated to Fourier transform ion cyclotron resonance mass spectrometry as the third dimension. In this study, we demonstrated that the developed CPC method fractionated samples according to the hydrocarbons’ alkylation degree, whereas our SFC method provided an elution order according to their double bond equivalent. Finally, high-resolution mass spectrometry (HRMS) brought crucial information on the identity of analytes and proved to be essential in the event of unresolved peaks from CPC and SFC chromatograms. To assess the ability of the three-dimensional method for quantification purposes, matrix effects were evaluated by spiking VGO samples with deuterated pyrene. A strong ion suppression phenomenon was highlighted when using only SFC/HRMS, whereas no significant matrix effect was observed with the CPC×SFC/HRMS approach. These experiments revealed the great potential of this innovative methodology to quantify both PAH and HPAH in VGOs for the first time.

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Optimization of Atmospheric Pressure Photoionization for the Crude Oil Analysis Using Ultra-High Resolution Mass Spectrometry

Cited by 6 publications

References 26 publications

Solvent and Flow Rate Effects on the Observed Compositional Profiles and the Relative Intensities of Radical and Protonated Species in Atmospheric Pressure Photoionization Mass Spectrometry

Solvent and Flow Rate Effects on the Observed Compositional Profiles and the Relative Intensities of Radical and Protonated Species in Atmospheric Pressure Photoionization Mass Spectrometry

A three-dimensional semi-quantitative method to monitor the evolution of polycyclic aromatic hydrocarbons from vacuum gas oil feedstocks to lighter products

Input of an Off-Line, Comprehensive, Three-Dimensional Method (CPC×SFC/HRMS) to Quantify Polycyclic Aromatic Hydrocarbons in Vacuum Gas Oils

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