Your search keyword '"Parshintsev, Jevgeni"' showing total 16 results

1. Environmental analysis: Atmospheric samples

Author

Parshintsev, Jevgeni, primary, Hartonen, Kari, additional, and Riekkola, Marja-Liisa, additional

Published

2023

2. Contributors

Author

Alfonso, Amparo, primary, Álvarez-Rivera, Gerardo, additional, Barceló, Damia, additional, Berardinelli, Diletta, additional, Berretta, Paolo, additional, Bobály, Balázs, additional, Botana, Ana M., additional, Botana, Luis M., additional, Bottillo, Grazia, additional, Briganti, Stefania, additional, Brunelli, C., additional, Calderón, Carlos, additional, Camera, Emanuela, additional, Čelić, Mira, additional, Chankvetadze, Bezhan, additional, Cifuentes, Alejandro, additional, D’Amato, Maura, additional, Dal Bosco, Chiara, additional, de Alda, Miren Lopez, additional, Di Trana, Annagiulia, additional, Domínguez-Hernández, Cristopher, additional, Donato, Paola, additional, Dugo, Paola, additional, Eylem, Cemil Can, additional, Fan, Yuchen, additional, Farré, Marinella, additional, Garrido Frenich, Antonia, additional, Gentili, Alessandra, additional, Gieroba, Barbara, additional, Gika, Helen, additional, González-Jartín, Jesús M., additional, González-Sálamo, Javier, additional, Goyon, Alexandre, additional, Hamase, Kenji, additional, Hanna-Brown, M., additional, Hartonen, Kari, additional, Hernández-Borges, Javier, additional, Herrero, Miguel, additional, Hradski, J., additional, Iadarola, Paolo, additional, Ibáñez, Elena, additional, Ishii, Chiharu, additional, Jiménez-Skrzypek, Gabriel, additional, Jóźwiak, Krzysztof, additional, Kataoka, Hiroyuki, additional, Koçak, Engin, additional, Koga, Reiko, additional, Kozak, Radoslaw P., additional, Lämmerhofer, Michael, additional, Lestremau, F., additional, Li, Shaoping, additional, López-Ruiz, Rosalía, additional, Maiellaro, Miriam, additional, Mandrioli, Roberto, additional, Marazuela, M.D., additional, Marín-Sáez, Jesús, additional, Matys, Joanna, additional, Mercolini, Laura, additional, Michalke, Bernhard, additional, Mondello, Luigi, additional, Montanari, Eva, additional, Nemutlu, Emirhan, additional, Nischwitz, Volker, additional, Ottaviani, Monica, additional, Parshintsev, Jevgeni, additional, Peluso, Paola, additional, Perez, Sandra, additional, Petrovic, Mira, additional, Plumb, Robert S, additional, Poole, Colin F., additional, Protti, Michele, additional, Qin, You, additional, Riekkola, Marja-Liisa, additional, Romero-González, Roberto, additional, Royle, Louise, additional, Sánchez-Martínez, José David, additional, Sciuto, Lorenzo, additional, Socas-Rodríguez, Bárbara, additional, Szucs, R., additional, Theodoridis, Georgios, additional, Tini, Anastasio, additional, Todoroki, Kenichiro, additional, Valdés, Alberto, additional, Vieytes, Mercedes R., additional, Viglio, Simona, additional, Wilson, Ian D, additional, Zhang, Kelly, additional, and Zhao, Jing, additional

Published

2023

3. Environmental analysis: Atmospheric samples

Author

Parshintsev, Jevgeni, primary, Hartonen, Kari, additional, and Riekkola, Marja-Liisa, additional

Published

2017

4. Contributors

Author

Acunha, Tanize, primary, Alfonso, Amparo, additional, Andjelković, Uroš, additional, Barceló, Damia, additional, Biba, Mirlinda, additional, Birbeck, Johnna A., additional, Bosse, Kelly E., additional, Botana, Ana M., additional, Botana, Luis M., additional, Brunelli, Claudio, additional, Camera, Emanuela, additional, Caretti, Fulvia, additional, Castro-Puyana, María, additional, Čelić, Mira, additional, Chankvetadze, Bezhan, additional, Cifuentes, Alejandro, additional, Donato, Paola, additional, Dugo, Paola, additional, Farré, Marinella, additional, Foley, Joe P., additional, García-Cañas, Virginia, additional, Gentili, Alessandra, additional, Giacometti, Jasminka, additional, Gika, Helen, additional, Gilbert-López, Bienvenida, additional, González, Jesús M., additional, Hamase, Kenji, additional, Hanna-Brown, Melissa, additional, Harpas, Peter, additional, Hartonen, Kari, additional, Herrero, Miguel, additional, Ialongo, Cristiano, additional, Ibáñez, Elena, additional, Ibáñez, María, additional, Josić, Djuro, additional, Kataoka, Hiroyuki, additional, Koga, Reiko, additional, Kostakis, Chris, additional, Lam, Shing-Chung, additional, Lestremau, Francois, additional, Li, Shao-Ping, additional, Lopez de Alda, Miren, additional, Ludovici, Matteo, additional, Marazuela, María Dolores, additional, Mathews, Tiffany A., additional, Michalke, Bernhard, additional, Miyoshi, Yurika, additional, Mondello, Luigi, additional, Newman, Brooke D., additional, Nischwitz, Volker, additional, Parshintsev, Jevgeni, additional, Perez, Sandra, additional, Petrović, Mira, additional, Plumb, Robert S., additional, Poole, Colin F., additional, Rainville, Paul, additional, Riekkola, Marja-Liisa, additional, Rodríguez, Inés, additional, Royle, Louise, additional, Sainz, María J., additional, Sander, Lane C., additional, Schantz, Michele M., additional, Simó, Carolina, additional, Stockham, Peter C., additional, Szucs, Roman, additional, Theodoridis, Georgios, additional, Todoroki, Kenichiro, additional, Valdés, Alberto, additional, Vieytes, Mercedes R., additional, Welch, Christopher J., additional, Wilson, Ian D., additional, Wise, Stephen A., additional, Yang, Zong-Lin, additional, and Zhao, Jing, additional

Published

2017

5. Integrated atomic layer deposition and chemical vapor reaction for the preparation of metal organic framework coatings for solid-phase microextraction Arrow.

Author

Lan H, Salmi LD, Rönkkö T, Parshintsev J, Jussila M, Hartonen K, Kemell M, and Riekkola ML

Abstract

New chemical vapor reaction (CVR) and atomic layer deposition (ALD)-conversion methods were utilized for preparation of metal organic frameworks (MOFs) coatings of solid phase microextraction (SPME) Arrow for the first time. With simple, easy and convenient one-step reaction or conversion, four MOF coatings were made by suspend ALD iron oxide (Fe 2 O 3 ) film or aluminum oxide (Al 2 O 3 ) film above terephthalic acid (H 2 BDC) or trimesic acid (H 3 BTC) vapor. UIO-66 coating was made by zirconium (Zr)-BDC film in acetic acid vapor. As the first documented instance of all-gas phase synthesis of SPME Arrow coatings, preparation parameters including CVR/conversion time and temperature, acetic acid volume, and metal oxide film/metal-ligand films thickness were investigated. The optimal coatings exhibited crystalline structures, excellent uniformity, satisfactory thickness (2-7.5 μm), and high robustness (>80 times usage). To study the practical usefulness of the coatings for the extraction, several analytes with different chemical properties were tested. The Fe-BDC coating was found to be the most selective and sensitive for the determination of benzene ring contained compounds due to its highly hydrophobic surface and unsaturated metal site. UIO-66 coating was best for small polar, aromatic, and long chain polar compounds owing to its high porosity. The usefulness of new coatings were evaluated for gas chromatography-mass spectrometer (GC-MS) determination of several analytes, present in wastewater samples at three levels of concentration, and satisfactory results were achieved., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

6. Modified zeolitic imidazolate framework-8 as solid-phase microextraction Arrow coating for sampling of amines in wastewater and food samples followed by gas chromatography-mass spectrometry.

Author

Lan H, Rönkkö T, Parshintsev J, Hartonen K, Gan N, Sakeye M, Sarfraz J, and Riekkola ML

Subjects

Agaricales chemistry, Animals, Ethylamines analysis, Ethylamines chemistry, Methylamines analysis, Methylamines chemistry, Molecular Weight, Polyvinyl Chloride chemistry, Salmon, Seafood, Sodium Chloride chemistry, Solid Phase Microextraction instrumentation, Stainless Steel chemistry, Temperature, Amines analysis, Amines chemistry, Food Analysis methods, Gas Chromatography-Mass Spectrometry, Imidazoles chemistry, Solid Phase Microextraction methods, Wastewater chemistry, Zeolites chemistry

Abstract

In this study, a novel solid phase microextration (SPME) Arrow was prepared for the sampling of volatile low molecular weight alkylamines (trimethylamine (TMA) and triethylamine (TEA)) in wastewater, salmon and mushroom samples before gas chromatographic separation with mass spectrometer as detector. Acidified zeolitic imidazolate framework-8 (A-ZIF-8) was utilized as adsorbent and poly(vinyl chloride) (PVC) as the adhesive. The custom SPME Arrow was fabricated via a physical adhesion: (1) ZIF-8 particles were suspended in a mixture of tetrahydrofuran (THF) and PVC to form a homogeneous suspension, (2) a non-coated stainless steel SPME Arrow was dipped in the ZIF-8/PVC suspension for several times to obtain a uniform and thick coating, (3) the pore size of ZIF-8 was modified by headspace exposure to hydrochloric acid in order to increase the extraction efficiency for amines. The effect of ZIF-8 concentration in PVC solution, dipping cycles and aging temperature on extraction efficiency was investigated. In addition, sampling parameters such as NaCl concentration, sample volume, extraction time, potassium hydroxide concentration, desorption temperature and desorption time were optimized. The Arrow-to-Arrow reproducibilities (RSDs) for five ZIF-8 coated Arrows were 15.6% and 13.3% for TMA and TEA, respectively. The extraction with A-ZIF-8/PVC Arrow was highly reproducible for at least 130 cycles without noticeable decrease of performance (RSD<12.5%). Headspace SPME of 7.5mL sample solution with the fabricated ZIF-8 coated Arrow achieved linear ranges of 1-200ngmL -1 for both TMA and TEA. The limit of quantitation (LOQ) was 1ngmL -1 for both TMA and TEA. The method was successfully applied to the determination of TMA and TEA in wastewater, salmon and mushroom samples giving satisfactory selectivity towards the studied amines., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

7. Solid phase microextraction Arrow for the sampling of volatile amines in wastewater and atmosphere.

Author

Helin A, Rönkkö T, Parshintsev J, Hartonen K, Schilling B, Läubli T, and Riekkola ML

Subjects

Chromatography, Gas, Reproducibility of Results, Sodium Chloride chemistry, Temperature, Amines analysis, Atmosphere chemistry, Solid Phase Microextraction methods, Wastewater chemistry

Abstract

A new method is introduced for the sampling of volatile low molecular weight alkylamines in ambient air and wastewater by utilizing a novel SPME Arrow system, which contains a larger volume of sorbent compared to a standard SPME fiber. Parameters affecting the extraction, such as coating material, need for preconcentration, sample volume, pH, stirring rate, salt addition, extraction time and temperature were carefully optimized. In addition, analysis conditions, including desorption temperature and time as well as gas chromatographic parameters, were optimized. Compared to conventional SPME fiber, the SPME Arrow had better robustness and sensitivity. Average intermediate reproducibility of the method expressed as relative standard deviation was 12% for dimethylamine and 14% for trimethylamine, and their limit of quantification 10μg/L and 0.13μg/L respectively. Working range was from limits of quantification to 500μg/L for dimethylamine and to 130μg/L for trimethylamine. Several alkylamines were qualitatively analyzed in real samples, while target compounds dimethyl- and trimethylamines were quantified. The concentrations in influent and effluent wastewater samples were almost the same (∼80μg/L for dimethylamine, 120μg/L for trimethylamine) meaning that amines pass the water purification process unchanged or they are produced at the same rate as they are removed. For the air samples, preconcentration with phosphoric acid coated denuder was required and the concentration of trimethylamine was found to be around 1ng/m(3). The developed method was compared with optimized method based on conventional SPME and advantages and disadvantages of both approaches are discussed., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

8. Determination of atmospheric amines by on-fiber derivatization solid-phase microextraction with 2,3,4,5,6-pentafluorobenzyl chloroformate and 9-fluorenylmethoxycarbonyl chloride.

Author

Parshintsev J, Rönkkö T, Helin A, Hartonen K, and Riekkola ML

Subjects

Gas Chromatography-Mass Spectrometry methods, Humans, Indicators and Reagents, Reproducibility of Results, Solid Phase Microextraction methods, Amines analysis, Fluorenes chemistry, Formates chemistry

Abstract

Alkylamines play an important role in atmospheric chemistry and are of concern for human health. Determining them from the vapor phase is challenging owing to their high polarity and volatility, water solubility, low concentrations, and poor chromatographic properties. We propose on-fiber derivatization solid-phase microextraction (SPME) to increase sensitivity and selectivity for the determination of alkylamines in air samples. SPME fibers coated in head-space with 2,3,4,5,6-pentafluorobenzyl chloroformate (PFBCF, 10min) or 9-fluorenylmethoxycarbonyl (FMOC) chloride (5min) were exposed to the sample for 5-120min, after which the derivatized alkylamines were thermally desorbed in the GC injection port and analyzed by GC-MS. The specific focus of the research was dimethylamine (DMA) but, as well as secondary amines, both coating agents readily react with primary and tertiary amines and with ammonia at ambient temperatures. The fiber coating procedures, sampling times, and analytical conditions were optimized, and methods were tested with natural samples. PFBCF was more selective and almost an order of magnitude more sensitive than FMOC chloride. Both reagents are applicable, however, depending on the requirements. With scan mode and use of molecular ion for quantification, the limit of quantification for DMA was 0.17μgL(-1) when derivatized with PFBCF and 3.4μgL(-1) when derivatized with FMOC chloride. When selected ion monitoring was used with the most abundant ion, the limit of quantification for DMA was 2.8ngL(-1). Intermediate reproducibility expressed as relative standard deviation was around 30% with PFBCF and less than 20% with FMOC chloride. Fibers coated with PFBCF could be used at least up to 24h when stored at 4°C and for 5 to 7h when stored at room temperature. After sampling/derivatization, storage time before analysis should not exceed 48h at 4°C or 24h at room temperature. At maximum, the PFBCF-coated fiber can be used in 100 coating/sampling/analysis cycles., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

9. A new approach to determine vapor pressures of compounds in multicomponent systems by comprehensive two-dimensional gas chromatography coupled to time-of-flight mass spectrometry.

Author

Parshintsev J, Lai CK, Hartonen K, Kulmala M, and Riekkola ML

Abstract

A method is described to determine vapor pressures of compounds in multicomponent systems simultaneously. The method is based on temperature-gradient analysis by comprehensive two-dimensional gas chromatography coupled to time-of-flight mass spectrometry (GCxGC-TOFMS). Vapor pressures are determined with the aid of known vapor pressure values of reference compounds eluting before and after the analytes. Reference compounds with the same functionalities as the analytes are preferred, but when these are not available, the alkane series can be utilized. The number of compounds whose vapor pressures can be determined is limited only by the peak capacity of the chromatographic system. Although the lowest subcooled vapor pressure determined was 0.006 Pa, for tetrahydroaraucarolone in an atmospheric aerosol sample, vapor pressures as low as 10(-6) Pa can be measured with the described set-up. Even lower values can be measured with higher GC temperatures and longer analysis times. Since only a few picograms of compound is required, in a mixture of any complexity, the GCxGC-TOFMS method offers unique sensitivity, rapidity, and comprehensiveness., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

10. Quaternary ammonium-functionalized silica sorbents for the solid-phase extraction of aromatic amines under normal phase conditions.

Author

Vidal L, Robin O, Parshintsev J, Mikkola JP, and Riekkola ML

Subjects

Amines analysis, Chromatography, Liquid, Drug Stability, Environmental Pollutants analysis, Environmental Pollutants isolation & purification, Ionic Liquids chemistry, Methenamine chemistry, Soil chemistry, Solid Phase Extraction methods, Wastewater chemistry, Amines isolation & purification, Imidazoles chemistry, Quaternary Ammonium Compounds chemistry, Silicon Dioxide chemistry, Solid Phase Extraction instrumentation

Abstract

Quaternary ammonium-functionalized silica materials were synthesized and applied for solid-phase extraction (SPE) of aromatic amines, which are classified as priority pollutants by US Environmental Protection Agency. Hexamethylenetetramine used for silica surface modification for the first time was employed as SPE sorbent under normal phase conditions. Hexaminium-functionalized silica demonstrated excellent extraction efficiencies for o-toluidine, 4-ethylaniline and quinoline (recoveries 101-107%), while for N,N-dimethylaniline and N-isopropylaniline recoveries were from low to moderate (14-46%). In addition, the suitability of 1-alkyl-3-(propyl-3-sulfonate) imidazolium-functionalized silica as SPE sorbent was tested under normal phase conditions. The recoveries achieved for the five aromatic amines ranged from 89 to 99%. The stability of the sorbent was evaluated during and after 150 extractions. Coefficients of variation between 4.5 and 10.2% proved a high stability of the synthesized sorbent. Elution was carried out using acetonitrile in the case of hexaminium-functionalized silica and water for 1-alkyl-3-(propyl-3-sulfonate) imidazolium-functionalized silica sorbent. After the extraction the analytes were separated and detected by liquid chromatography ultraviolet detection (LC-UV). The retention mechanism of the materials was primarily based on polar hydrogen bonding and π-π interactions. Comparison made with activated silica proved the quaternary ammonium-functionalized materials to offer different selectivity and better extraction efficiencies for aromatic amines. Finally, 1-alkyl-3-(propyl-3-sulfonate) imidazolium-functionalized silica sorbent was successfully tested for the extraction of wastewater and soil samples., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

11. Aliphatic and aromatic amines in atmospheric aerosol particles: comparison of three ionization techniques in liquid chromatography-mass spectrometry and method development.

Author

Ruiz-Jiménez J, Hautala S, Parshintsev J, Laitinen T, Hartonen K, Petäjä T, Kulmala M, and Riekkola ML

Abstract

A complete methodology was developed for the determination of ten aliphatic and nine aromatic amines in atmospheric aerosol particles. Before the liquid chromatography - tandem mass spectrometric separation and determination, the derivatization reaction of the analytes using dansyl chloride was accelerated by ultrasounds. From three different ionization techniques studied electrospray ionization was superior in terms of sensitivity, linearity, repeatability and reproducibility over atmospheric pressure chemical ionization and photoionization for the target analytes. The method developed was validated for the gas phase, 30 nm and total suspended atmospheric aerosol particles. The method quantification limits ranged between 1.8 and 71.7 pg. The accuracy and the potential matrix effects were evaluated using a standard addition methodology. Recoveries from 92.1% to 109.1%, the repeatability from 0.6% to 8.4% and the reproducibility from 2.3% to 9.8% were obtained. The reliability of the methodology was proved by the statistical evaluation. Finally, the developed methodology was applied to the determination of the target analytes in eight size separated ultrafine particulate (Dp=30±4 nm) samples and in eight total suspended particulate samples collected at the SMEAR II station. The mean concentrations for aliphatic amines were between 0.01 and 42.67 ng m(-3) and for aromatic amines between 0.02 and 1.70 ng m(-3). Thirteen amines were quantified for the first time in 30 nm aerosol particles., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

12. Ionic liquid-functionalized silica for selective solid-phase extraction of organic acids, amines and aldehydes.

Author

Vidal L, Parshintsev J, Hartonen K, Canals A, and Riekkola ML

Subjects

Aerosols chemistry, Aldehydes analysis, Amines analysis, Carboxylic Acids analysis, Chromatography, Liquid, Gas Chromatography-Mass Spectrometry, Hydrogen-Ion Concentration, Imidazoles chemistry, Mass Spectrometry, Reproducibility of Results, Aldehydes isolation & purification, Amines isolation & purification, Carboxylic Acids isolation & purification, Ionic Liquids chemistry, Silicon Dioxide chemistry, Solid Phase Extraction methods

Abstract

Three ionic liquid (IL)-functionalized silica materials, imidazolium, N-methylimidazolium and 1-alkyl-3-(propyl-3-sulfonate) imidazolium, were synthesised and applied in solid-phase extraction (SPE) of organic acids, amines and aldehydes, which are important compound families in atmospheric aerosol particles. 1-Alkyl-3-(propyl-3-sulfonate) imidazolium-functionalized silica was tested as sorbent for SPE for the first time. The analytes were separated and detected by liquid chromatography-mass spectrometry (LC-MS). To confirm the results achieved by LC-MS, the acids were additionally determined by gas chromatography-mass spectrometry (GC-MS). The stability of the IL-functionalized silica materials was tested at low and high pH. The effect of the pH on the extraction was also informative of the retention mechanism of the materials. The results showed anion exchange to be the main interaction, but hydrophobic and π interactions and hydrogen bonding also played a role in the extraction. Extraction efficiencies for organic acids ranged from 87 to 110%, except for cis-pinonic acid (19-29%). Lower extraction efficiencies for amines and aldehydes confirmed that anionic exchange was the predominant interaction. Comparisons made with two commercial SPE materials--silica-based strong anion exchange (SAX) and polymer-based mixed-mode anion exchange and reverse-phase (MAX)--showed the IL-functionalized materials to offer different selectivity and better extraction efficiency than SAX for aromatic compounds. Finally, the new materials were successfully tested in the extraction of an atmospheric aerosol sample., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

13. Particle-into-liquid sampler on-line coupled with solid-phase extraction-liquid chromatography-mass spectrometry for the determination of organic acids in atmospheric aerosols.

Author

Parshintsev J, Kivilompolo M, Ruiz-Jimenez J, Hartonen K, Kulmala M, and Riekkola ML

Subjects

Air analysis, Hydrogen-Ion Concentration, Sensitivity and Specificity, Silicon Dioxide, Aerosols chemistry, Carboxylic Acids analysis, Chromatography, High Pressure Liquid methods, Mass Spectrometry methods, Solid Phase Extraction methods

Abstract

In the present study, sample collection and preparation were directly integrated with a chromatographic system by coupling a particle-into-liquid sampler for the first time on-line with solid-phase extraction-liquid chromatography-tandem mass spectrometry. Several organic acids, such as adipic, hydroxyglutaric, mandelic, vanillic, cis-pinonic, pinic, azelaic and sebacic, were used in the research. For sample pretreatment and concentration, strong anion exchange material was used in the extraction. Sampling, extraction and analysis conditions were optimized to obtain reliable information about aerosol chemical composition. To evaluate the performance of the on-line coupled system, half of each sample was analysed on-line and the other half was derivatized and analysed off-line by gas chromatography-mass spectrometry. Comparison of the two techniques with use of t-test showed the results to be in an excellent agreement. Limits of detection of studied acids in on-line system were between 0.1 and 0.9 ng. The on-line coupled system is fast and reliable and a promising tool for the real time analysis of organic acids in atmospheric aerosols., (2010 Elsevier B.V. All rights reserved.)

Published

2010

14. Solid-phase extraction of organic compounds in atmospheric aerosol particles collected with the particle-into-liquid sampler and analysis by liquid chromatography-mass spectrometry.

Author

Parshintsev J, Hyötyläinen T, Hartonen K, Kulmala M, and Riekkola ML

Subjects

Acids isolation & purification, Adsorption, Aerosols, Aldehydes isolation & purification, Analytic Sample Preparation Methods, Chromatography, Liquid, Chromatography, Reverse-Phase, Hydrophobic and Hydrophilic Interactions, Mass Spectrometry, Organic Chemicals chemistry, Ozone chemistry, Polycyclic Sesquiterpenes, Reproducibility of Results, Sesquiterpenes chemistry, Solid Phase Extraction, Atmosphere chemistry, Organic Chemicals analysis, Organic Chemicals isolation & purification

Abstract

Atmospheric aerosol particles, collected with the particle-into-liquid sampler at SMEARII station in Finland in mid-August 2007, were analysed for biogenic acids. The sample pretreatment method, comprising solid-phase extraction with anion exchange and hydrophilic-lipophilic balance materials, was optimized. Extraction efficiencies of solid-phase extraction from 10 and 20ml samples were about 100%, with average relative standard deviation of 8.9%, in concentration range from 12.5 to 50ng/ml of the acid. Extraction of aldehydes was less successful, with efficiencies from 69 to 163% and average 10% deviation. Pretreated samples were analysed by reversed phase high performance liquid chromatography with ion trap mass spectrometric detection. Limits of detection achieved for organic acids with the analytical procedure developed ranged from 9 to 27microg/l of extracted sample, while limits of quantitation were from 31 to 90microg/l. Oxidation with ozone was used for the preparation of the acid of beta-caryophyllene (beta-caryophyllinic acid), which was also studied in aerosol samples. MS(2) experiments were used to confirm the identification of trans-pinic, trans-pinonic and beta-caryophyllinic acids. Azelaic, hexadecanoic, cis-pinonic, and cis- and trans-pinic acids were quantitated in the samples with use of authentic standards, while the concentrations of trans-pinonic and beta-caryophyllinic acids were determined with cis-pinonic acid as surrogate. Also, the contribution of beta-caryophyllene oxidation products to aerosol organic carbon was evaluated. Aldehydes could not be analysed in real samples due to the insufficient extraction. The particle-into-liquid sampler proved to be suitable for the collection of aerosol particles for the elucidation of daily and diurnal variation of selected species. The optimized sample pretreatment, together with the analysis method, offer a promising approach for the study of aerosol chemical composition, where artifact formation is minimal and time resolution is good.

Published

2010

15. Determination of organic compounds from wood combustion aerosol nanoparticles by different gas chromatographic systems and by aerosol mass spectrometry.

Author

Laitinen T, Martín SH, Parshintsev J, Hyötyläinen T, Hartonen K, Riekkola ML, Kulmala M, and Pavón JL

Subjects

Aerosols chemistry, Volatilization, Chromatography, Gas methods, Mass Spectrometry methods, Nanoparticles chemistry, Organic Chemicals chemistry, Wood chemistry

Abstract

Organic compounds in atmospheric nanoparticles have an effect on human health and the climate. The determination of these particles is challenged by the difficulty of sampling, the complexity of sample composition, and the trace-level concentrations of the compounds. Meeting the challenge requires the development of sophisticated sampling systems for size-resolved particles and the optimization of sensitive, accurate and simple analytical techniques and methods. A new sampling system is proposed where particles are charged with a bipolar charger and size-segregated with a differential mobility analyzer. This system was successfully used to sample particles from wood pyrolysis with particle sizes 30-100nm. Particles were analyzed by four techniques: comprehensive two-dimensional gas chromatography-time-of-flight mass spectrometry, gas chromatography-time-of-flight mass spectrometry, gas chromatography-quadrupole mass spectrometry, and aerosol mass spectrometry (aerosol MS). In the chromatographic techniques, particles were collected on a filter and analyzed off-line after sample preparation, whereas in the aerosol MS, particle analysis was performed directly from the particle source. Target compounds of the samples were polyaromatic hydrocarbons and n-alkanes. The analytical techniques were compared and their advantages and disadvantages were evaluated. The sampling system operated well and target compounds were identified in low concentrations., (Copyright 2009 Elsevier B.V. All rights reserved.)

Published

2010

16. Isolation of flavonoids from aspen knotwood by pressurized hot water extraction and comparison with other extraction techniques.

Author

Hartonen K, Parshintsev J, Sandberg K, Bergelin E, Nisula L, and Riekkola ML

Subjects

Chromatography, High Pressure Liquid, Flame Ionization, Gas Chromatography-Mass Spectrometry, Hot Temperature, Solid Phase Extraction, Ultrasonics, Flavonoids isolation & purification, Populus chemistry, Water chemistry

Abstract

Pressurized hot water extraction (PHWE) conditions (time, temperature, pressure) were optimized for the extraction of naringenin and other major flavonoids (dihydrokaempferol, naringin) from knotwood of aspen. Extracts were analysed by GC-FID, GC-MS, HPLC-UV and HPLC-MS. The results were compared with those obtained by Soxhlet, ultrasonic extraction and reflux in methanol. Flavonoids were most efficiently extracted with PHWE at 150 degrees C and 220 bar with 35 min extraction time. Soxhlet with methanol gave slightly higher recoveries, but an extraction time of 48 h was required. Naringenin concentration was highest in knotwood (1.15% dry weight) and much lower in the sapwood. PHWE proved to be cheap, fast and effective for the isolation of biofunctional flavonoids from aspen knotwood, producing higher recoveries than 24 h Soxhlet extraction, sonication or 24 h reflux.

Published

2007