2010-present

• Year 2021
• Year 2020
• Year 2019
• Year 2018
• Year 2017
• Year 2016
• Year 2015
• Year 2014
• Year 2013
• Year 2012
• Year 2011
• Year 2010

Year 2021

1. Multiresidue pesticide quantitation in multiple fruit matrices via automated coated blade spray and liquid chromatography coupled to triple quadrupole mass spectrometry, A. Kasperkiewicz and J. Pawliszyn, Food Chemistry 339, 127815 (2021).

2. Overcoming matrix effects in the analysis of pyrethroids in honey by a fully automated direct immersion solid-phase microextraction method using a matrix-compatible fiber, J. Belinato, J. Grandy, A. Khaled, P. Suarez and J. Pawliszyn, Food Chemistry 360, 128127 (2021).

3. Multi-class pesticide analysis in cannabis oil using coated blade spray and solid-phase microextraction with liquid chromatography coupled to mass spectrometry, A. Kasperkiewicz and J. Pawliszyn, Talanta 255, 122036 (2021).

4. Therapeutic drug monitoring of tranexamic acid in plasma and urine of renally impaired patients using solid phase microextraction, N. Looby, T. Vasiljevic, N. Reyes-Garces, A. Roszkowska, B. Bojko, M. Wąsowicz. A. Jerath and J. Pawliszyn, Talanta, 225, 121945 (2020).

5. Rapid determination of tacrolimus and sirolimus in whole humanblood by direct coupling of solid-phase microextraction to massspectrometry via microfluidic open interface, E. Nazdrajić, M. Tascon, D. Rickert, G. Gómez-Ríos, V. Kulasingam and J. Pawliszyn, Analytica Chimica Acta, 1144, 53-60 (2021).

6. Assessment of solid phase microextraction as a sample preparation tool for untargeted analysis of brain tissue using liquid chromatography-mass spectrometry, N. Reyes-Garcés, E. Boyaci, G. Gómez-Ríos, M. Olkowicz, C. Monnin, B. Bojko, D. Vuckovic, J. Pawliszyn, J. Chromatogr. A 1638, 461862 (2021).

7. Determination of selected volatile terpenes in fish samples via solid phase microextraction arrow coupled with GC-MS, X.Xu, K. Murtada, J. Pawliszyn, Talanta 221, 121446 (2021).

8. Direct immersion thin film solid phase microextraction of polychlorinated n-alkanes in cod liver oil, D. Gruszecka, J. Grandy, E. Gionfriddo, V. Singh, J. Pawliszyn, Food Chemistry 353, 129244 (2021).

9. White Analytical Chemistry: An approach to reconcile the principles of Green Analytical Chemistry and functionality, P. M. Nowak, R. Wietecha-Posłuszny, J. Pawliszyn, TrAC Trends in Analytical Chemistry 138, 116223 (2021). 

10. Identification of the metabolites regulated in soybean-Rhizobia symbiosis through solid phase microextraction coupled with LC-MS, B. Onat, H. Rosales-Solano, L. Ferrier, J. Pawliszyn, J. Chromatogr. A 1641, 461934 (2021).

11. Solid phase microextraction chemical biopsy tool for monitoring of doxorubicin residue during in vivo lung chemo-perfusion, B. Bojko, N. Looby, M. Olkowicz, A. Roszkowska, B. Kupcewicz, P. Reck des Santos, K. Ramadan, S. Keshavjee, T. K. Waddell, G. Gómez-Ríos, M. Tascon, K. Goryński, M. Cypel, J Pawliszyn, Journal of Pharmaceutical Analysis 11, 37-47 (2021).

12. Solid-Phase Microextraction-Probe Electrospray Ionization Devices for Screening and Quantitating Drugs of Abuse in Small Amounts of Biofluids, M. Thirukumaran, V. Singh, Y. Arao, Y. Fujito, M. Nishimura, T. Ogura, J. Pawliszyn, Talanta XX, 122317 (2021).

13. Development of porous carbon/polydimethylsiloxane thin-film solid-phase microextraction membranes to facilitate on-site sampling of volatile organic compounds, K. Murtada, V. Galpin, J. Grandy, V. Singh, F. Sanchez, J. Pawliszyn, Sustainable Chemistry and Pharmacy 21, 100435 (2021).    

Year 2020

1. Recent advances in breath analysis to track human health by new enrichment technologies, C. Ghosh, V. Singh, J. Grandy and J. Pawliszyn, J. Separation Science 43, 226-240 (2019).

2. Evaluation of a coated blade spray-tandem mass spectrometry assay as a new tool for the determination of immunosuppressive drugs in whole blood, D. Rickert, G. Gómez-Ríos, E. Nazdrajic, M. Tascon, V. Kulasingam and J. Pawliszyn, Anal. & Bioanal. Chem. 412, 5067-5076 (2020).

3. Development of thin-film solid-phase microextraction coating and method for determination of artificial sweeteners in surface waters, D. Cardenas-Soraca, V. Singh, E. Nazdrajic, T. Vasiljevic, J. Grandy and J. Pawliszyn, Talanta 211, 120-714 (2020).

4. Direct-immersion SPME in soy milk for pesticide analysis at trace levels by means of a matrix-compatible coating, E. Gionfriddo, D. Gruszecka, X. Li, J. Pawliszyn, Talanta 211, 120746 (2020).

5. Unique Solid Phase Microextraction Sampler Reveals Distinctive Biogeochemical Profiles among Various Deep-Sea Hydrothermal Vents, J.J. Grandy, B. Onat, V. Tunnicliffe, D.A. Butterfield, J. Pawliszyn, Scientific Reports 10, 1360 (2020).

6. Development and validation of a headspace needle-trap method for rapid quantitative estimation of butylated hydroxytoluene from cosmetics by hand-portable GC-MS, C. Ghosh, V. Singh, J. Grandy and J. Pawliszyn, RSC Adv. 10, 6671-6677 (2020).

7. Potential of Recent Ambient Ionization Technologies for Future Food Contaminant Analysis Using (Trans)Portable Mass Spectrometry, M.H. Blokland, A. Gerssen, P.W. Zoontjes, J. Pawliszyn and M.W.F. Nielen, Food Analytical Methods 13, 706-717 (2020).

8. In Viso Solid-Phase Microextraction for Sampling of Oxylipins in Brain of Awake, Moving Rats, A. Napylov, N.R. Garces, G. Gomez-Rios, M. Olkowicz, S. Lendor, C. Monnin, B. Bojko, C. Hamani, J. Pawliszyn, D. Vuckovic, Angewandte Chemie 59, 2392-2398 (2020).

9. Optimization of coated blase spray for rapid screening and quantitation of 105 veterinary drugs in biological tissue samples, A. Khaled, G. Gómez-Ríos, J. Pawliszyn, Analytical Chemistry 92, 5937-5943 (2020).

10. A Model to Assess Acute and Delayed Lung Toxicity of Oxaliplatin During In Vivo Lung Perfusion, K. Ramadan, B. Gomes, M. Pipkin, M. Olkowicz, B. Bojko, A.R.M. Hondjeu, S. Keshavjee, T. Waddell, J. Pawliszyn, M. Cypel, J. Thorac. Cardiovasc. Surg. XX, XXX-XXX (2020).

11. Mechanism of interactions between organophosphorus insecticides and human serum albumin: Solid-phase microextraction, thermodynamics and computational approach, H. Zhao, B. Bojko, F. Liu, J. Pawliszyn, W. Peng, X. Wang, Chemosphere 253,126698, (2020).

12. Application of in vivo solid phase microextraction (SPME) in capturing metabolome of apple (Malus× domestica Borkh.) fruit, S. Risticevic, E. A. Souza-Silva, E. Gionfriddo, J. R. DeEll, J. Cochran, W. S. Hopkins, J. Pawliszyn, Scientific reports 10, 1-11 (2020).

13. Rapid and high‐throughput screening of multi-residue pharmaceutical drugs in bovine tissue using solid phase microextraction and direct analysis in real time-tandem mass spectrometry (SPME-DART-MS/MS), A. Khaled, J. R. Belinato, J. Pawliszyn, Talanta 217, 121095 (2020).

14. Development of a thin-film solid-phase microextraction (TF-SPME) method coupled to liquid chromatography and tandem mass spectrometry for high-throughput determination of steroid hormones in white sucker fish plasma, M. Maciążek-Jurczyk, V. Bessonneau, J. Ings, L. Bragg, M. McMaster, M. R. Servos, B. Bojko, J. Pawliszyn, Anal. & Bioanal. Chem. 412, 4183–4194 (2020).

15. Investigation of early death-induced changes in rat brain by solid phase microextraction via untargeted high resolution mass spectrometry: in vivo versus post mortem comparative study, S. Lendor, M. Olkowicz, E. Boyaci, M. Yu, M. Diwan, C. Hamani, M. Palmer, N. Reyes-Garcés, G. Gómez-Ríos, J. Pawliszyn, ACS Chem. Neurosci. 11, 1827–1840 (2020).

16. Development of a Biocompatible Solid Phase Microextraction Thin Film Coating for the Sampling and Enrichment of Peptides, B. Onat, H. R. Solano, J. Pawliszyn, Analytical Chemistry 92, 9379–9388 (2020).

17. Multiresidue pesticide quantitation in multiple fruit matrices via automated coated blade spray and liquid chromatography coupled to triple quadrupole mass spectrometry, A Kasperkiewicz, J Pawliszyn, Food Chemistry 339, 127815 (2020).

18. Metabolic profile of fish muscle tissue changes with sampling method, storage strategy and time, M. Yua, S. Lendor, A. Roszkowska, M. Olkowicz, L. Bragg, M. Servos, J Pawliszyn, Anal. Chim. Acta 1136, 42-50 (2020).

19. Development of a drone-based thin film solid phase microextraction water sampler to facilitate on-site screening for environmental pollutants, J. J Grandy, V. Galpin, V. Singh, J. Pawliszyn, Analytical Chemistry 92, 12917–12924 (2020).

20. Fluorometer for Screening of Doxorubicin in Perfusate Solution and Tissue with Solid-Phase Microextraction Chemical Biopsy Sampling, V. Galievsky, J. Pawliszyn, Analytical Chemistry 92, 13025–13033 (2020).

21. Polyvinylidene Difluoride: A Universal Binder for Preparation of Solid Phase Microextraction Devices, V. Singh, C. Ghosh, A. Kaur, J. Pawliszyn, ChemRxiv XX, XX–XX (2020).

22. Overcoming Matrix Effects in the Analysis of Pyrethroids in Honey by a Fully Automated Direct Immersion Solid-Phase Microextraction Method using a Matrix-Compatible Fiber, J. R. Belinato, J. J Grandy, A. Khaled, P. A. O. Suarez, J. Pawliszyn, Food Chemistry 340, 128127 (2020).

23. Development and validation of an improved, thin film solid phase microextraction based, standard gas generating vial for the repeatable generation of gaseous standards, J. J Grandy, K. Murtada, J. R. Belinato, P. A. O. Suárez, J. Pawliszyn, Journal of Chromatography A 1632, 461541 (2020).

24. Systematic Evaluation of Different Coating Chemistries Used in Thin-Film Microextraction, J. Liu, K. Murtada, N. Reyes-Garcés, J. Pawliszyn, Molecules 25, 3448 (2020).

25. Comprehensive Analysis of Multiresidue Pesticides from Process Water Obtained from Wastewater Treatment Facilities Using Solid-Phase Microextraction, D. A Rickert, V. Singh, M. Thirukumaran, J. J Grandy, J. R Belinato, M Lashgari, J. Pawliszyn, Environmental Science & Technology 54, 15789-15799 (2020).

 Year 2019

1. High-throughput solid-phase microextraction–liquid chromatography–mass spectrometry for microbial untargeted metabolomics, F. Mousavi, B. Bojko and J. Pawliszyn, Methods in Molecular Biology 1859, 133-152 (2019).

2. Structure/reaction directed analysis for LC-MS based untargeted analysis, M. Yu, M. Olkowicz and J. Pawliszyn, Anal. Chimica Acta. 1050, 16-24. (2019).

3. Direct Coupling of Dispersive Extractions with Magnetic Particles to Mass Spectrometry via Microfluidic Open Interface, M. Tascon, V. Singh, M. Huq and J. Pawliszyn, Analytical Chemistry 91, 4762-4770 (2019).

4. Solid Phase Microextraction-Based Miniaturized Probe and Protocol for Extraction of Neurotransmitters from Brains in Vivo, S. Lendor, S-A Hassani, E. Boyaci, V. Singh, T. Womelsdorf and J. Pawliszyn, Analytical Chemistry 91, 4896-4905 (2019).

5. Fast screening of illicit drugs in beverages and biological fluids by direct coupling of thin film microextraction to dielectric barrier discharge ionization-mass spectrometry, M. Mirabelli, E. Gionfriddo, J. Pawliszyn and R. Zenobi, Analyst 144, 2788-2796 (2019).

6. Development and validation of a fully automated solid phase microextraction high throughput method for quantitative analysis of multiresidue veterinary drugs in chicken tissue, A. Khaled, E. Gionfriddo, J. Acquaro, V. Singh and J. Pawliszyn, Anal. Chimica Acta.  1056, 34-46 (2019).

7. In vivo solid phase microextraction sampling combined with metabolomics and toxicological studies for the non-lethal monitoring of the exposome in fish tissue, A. Roszkowska, M. Yu, V. Bessonneau, J. Ings, M. McMaster, R. Smith, L. Bragg and J. Pawliszyn, Environmental Pollution 249, 109-115 (2019).

8. Miniaturized SPME tips directly coupled to mass spectrometry for targeted determination and untargeted profiling of small samples, T. Vasiljevic, V. Singh and J. Pawliszyn, Talanta 199, 689-697 (2019).

9. The use of solid phase microextraction for metabolomic analysis of non-small cell lung carcinoma cell line (A549) after administration of combretastatin A4, K. Jaroch, E. Boyaci, B. Bojko and J. Pawliszyn, Scientific Reports 9, 402 (doi: 10.1038/s41598-018-36481-2) (2019).

10. Measurement of Free Drug Concentration from Biological Tissue by Solid-Phase Microextraction: In Silico and Experimental Study, M. Huq, M. Tascon, E. Nazdrajic, A. Roszkowska and J. Pawliszyn, Analytical Chemistry 91, 7119-7728 (2019).

11. In Vivo Brain Sampling Using a Microextraction Probe Reveals Metabolic Changes in Rodents after Deep Brain Stimulation, N. Reyes-Garcés, M. Diwan, E.l Boyacı, G. Gómez-Ríos, B. Bojko, J. Nobrega, F. Bambico, C. Hamani and J. Pawliszyn, Analytical Chemistry 91, 9875-9884 (2019).

12. Solid phase microextraction coupled to mass spectrometry via a microfluidic open interface for rapid therapeutic drug monitoring, N. Looby, M. Tascon, V. Acquaro, N. Reyes-Garcés, T. Vasiljevic, G. Gómez-Ríos and J. Pawliszyn, Analyst 144, 3721-3728 (2019).

13. Space-Resolved Tissue Analysis by Solid-Phase Microextraction Coupled to High-Resolution Mass Spectrometry via Desorption Electrospray Ionization, S. Ledor, G. Gómez-Ríos, E. Boyaci, H. Vander Heide and J. Pawliszyn, Analytical Chemistry 91, 10141-10148 (2019).

14. Direct analysis in real time (DART) and solid phase microextraction (SPME) transmission mode (TM): a suitable platform for analysis of prohibited substances in small volumes, T. Vasiljevic and J. Pawliszyn, Analytical Methods 11, 3882-3889 (2019).

15. A Novel Water-Swelling Sampling Probe for in Vivo Detection of Neonicotinoids in Plants, J. Qiu, G. Ouyang, J. Pawliszyn, D. Schlenk, J. Gan, Environmental Science and Technology 53, 9686-9694 (2019).

16. Introducing a mechanically robust SPME sampler for the on-site sampling and extraction of a wide range of untargeted pollutants in environmental waters, J. Grandy, M. Lashgari, H. Vander Heide, J. Poole and J. Pawliszyn, Environmental Pollution 252, 825-834 (2019).

17. Frontiers of Sampling: Design of High Surface Area Thin-Film Samplers for On-site Environmental Analysis, J. Grandy, M. Lashgari, V. Singh and J. Pawliszyn, Environmental Pollution 252, 825-834 (2019).

18. High-throughput quantification of drugs of abuse in biofluids via 96-solid-phase microextraction-transmission mode and direct analysis in real time mass spectrometry, T. Vasiljevic, G. Gómez-Ríos, F.Li, P. Liang and J. Pawliszyn, Rapid Communiations in Mass Spectrometry 18, 1423-1433 (2019).

19. A critical review on regulatory sample preparation methods: Validating solid phase microextraction techniques, M. Lashgari, V. Singh and J. Pawliszyn, TrAC 119, 115618 (2019).

20. Multineuromodulator measurements across fronto-striatal network areas of the behaving macaque using solid-phase microextraction, S-A Hassani, S. Lendor, E. Boyaci, V. Singh, J. Pawliszyn and T. Womelsdorf, J. of Neurophysiology 122, 1649-1660 (2019).

21. Direct coupling of solid phase microextraction with electrospray ionization mass spectrometry: A Case study for detection of ketamine in urine, B. Hu, B. Zheng, D. Rickert, G. Gómez-Ríos, B. Bojko, J. Pawliszyn and Z. Yao, Anal. Chimica Acta.1075, 112-119 (2019).

22. Application of in situ Solid-Phase Microextraction on Mediterranean Sponges for Untargeted Exometabolome Screening and Environmental Monitoring, B. Bojko, B. Onat, E. Boyaci, E. Psillakis, T. Dalianis and J. Pawliszyn, Frontiers in Marine Science.1075, 112-119 (2019).

23.  Breaching the 10 Second Barrier of Total Analysis Time for Complex Matrices via Automated Coated Blade Spray, A. Kasperkiewicz, G. Gómez-Ríos, E. Boyaci, D. Hein and J. Pawliszyn, Analytical Chemistry 91, 13039-13046 (2019).

24. Comparison of Solid-Phase Microextraction to Solvent Extraction and QuEChERS for Quantitative Analysis of Veterinary Drug Residues in Chicken and Beef Matrices, A. Khaled, V. Singh and J. Pawliszyn, J. Agricultural and Food Chemistry 67, 12663-12669 (2019).

25. In Vivo Solid-Phase Microextraction for Sampling of Oxylipins in Brain of Awake, Moving Rats, A. Napylov, N. Reyes-Garcés, G. Gómez-Ríos, B. Bojko, M. Olkowicz, S. Lendor, C. Monnin, B. Bojko, C. Hamani, J. Pawliszyn and D. Vuckovic, Angewandte Chemie – Intenational Edition 59, 2392-2398 (2019).

26. Analysis of endocannabinoids in plasma samples by biocompatible solid phase microextraction devices coupled to mass spectrometry, V. Acuaro, G. Gómez-Ríos, M. Tascon, M. Queiroz and J. Pawliszyn, Anal. Chimica Acta. 1091, 135-145 (2019).

Year 2018

1.  Single-Use Poly(etheretherketone) Solid-Phase Microextraction-Transmission Mode Devices for Rapid Screening and Quantitation of Drugs of Abuse in Oral Fluid and Urine via Direct Analysis in Real-Time Tandem Mass Spectrometry, T. Vasiljevic, G. Goḿez-Ríos and J. Pawliszyn, Anal. Chem. 90, 952-960 (2018).

2.  Advances in Solid Phase Microextraction and Perspective on Future Directions, N. Reyes-Garceś, E. Gionfriddo, G. Goḿez-Ríos, N. Alam, E. Boyaci, B. Bojko, V. Singh, J. Grandy and J. Pawliszyn, Anal. Chem. 90, 302-360 (2018).

3.  High-throughput analysis using non-depletive SPME: challenges and applications to the determination of free and total concentrations in small sample volumes, E. Boyaci, B. Bojko, N. Reyes-Garceś, J Poole, G. Goḿez-Ríos, A. Texeira, B. Nicol and J. Pawliszyn, Scientific Reports 8, 1167 (doi: 10.1038/s41598-018-19313-1 (2018).

4.  Rapid determination of immunosuppressive drug concentrations in whole blood by coated blade spray-tandem mass spectrometry (CBS-MS/MS), Goḿez-Ríos, M. Tascon, N. Reyes-Garceś, E. Boyaci, J Poole and J. Pawliszyn, Analytica Chimica Acta 999, 69-75 (2018).

5. Effect of Binding Components in Complex Sample Matrices on Recovery in Direct Immersion Solid-Phase Microextraction: Friends or Foe, N. Alam and J. Pawliszyn, Anal. Chem. 90, 2430−2433 (2018).

6. Investigating the robustness and extraction performance of a matrix-compatible solid-phase microextraction coating in human urine and its application to assess 2–6-ring polycyclic aromatic hydrocarbons using GC–MS/MS, A. Naccarato, E. Gionfriddo, R. Ellliano, J. Pawliszyn, G. Sindona and A. Tagarelli, J. Sep. Sci. 41, 929-939 (2018).

7. Coated blade spray: shifting the paradigm of direct sample introduction to MS, Goḿez-Ríos, M. Tascon, N and J. Pawliszyn, Bioanalysis 10, 257-271 (2018).

8. Development of a Microfluidic Open Interface with Flow Isolated Desorption Volume for the Direct Coupling of SPME Devices to Mass Spectrometry, M. Tascon, N. Alam, G. Goḿez-Ríos and J. Pawliszyn, Analytical Chemistry 90, 2631-2638 (2018).

9. A quantitative approach for pesticide analysis in grape juice by direct interfacing of a matrix compatible SPME phase to dielectric barrier discharge ionization-mass spectrometry, M. Mirabelli, E. Gionfriddo, J. Pawliszyn and R. Zenobi, Analyst 143, 891-899 (2018).

10. The effect of hematocrit on solid-phase microextraction, N. Reyes-Garceś, N. Alam and J. Pawliszyn, Anal. Chimica Acta. 1001, 40-50 (2018).

11. Equilibrium ex-vivo calibration of homogenized tissue for in vivo SPME quantitation of doxorubicin in lung tissue, A. Roszkowska, M. Tascon, B. Bojko, K. Gorynski, P. os Santos, M. Cypel and J. Pawliszyn,Talanta 183, 304-310 (2018).

12. Exploiting the tunable selectivity features of polymeric ionic liquid-based SPME sorbents in food analysis, E. Gionfriddo, E. Souza-Silva, T. Ho, J. Anderson and J. Pawliszyn, Talanta 183, 522-530 (2018).

13. Tissue storage affects lipidome profiling in comparison to in vivo microsampling approach, A. Roszkowska, M. Yu, V. Bessonneau, L Bragg, M. Servos and J. Pawliszyn, Scientific Reports 8, 6980 (doi: 10.1038/s41598-018-25428-2 (2018).

14. Metabolome Profiling of Fish Muscle Tissue Exposed to Benzo[ a]pyrene Using in Vivo Solid-Phase Microextraction, A. Roszkowska, M. Yu, V. Bessonneau, L Bragg, M. Servos and J. Environmental Science and Technology Letters 5, 431-435 (2018).

15.Direct immersion solid-phase microextraction analysis of multi-class contaminants in edible seaweeds by gas chromatography-mass spectrometry, L. Zhang, E. Gionfriddo, V. Acquaro and J. Pawliszyn, Anal. Chimica Acta.  1051, 83-97. (2018).

16. Effect of Transport Parameters and Device Geometry on Extraction Kinetics and Efficiency in Direct Immersion Solid-phase Microextraction, N. Alam, E. Nazdrajic, V. Singh, M. Tascon and J. Pawliszyn, Analytical Chemistry 90, 11548–11555 (2018).

17. Development and validation of eco-friendly strategies based on thin film microextraction for water analysis, H. Piri-Moghadam, E. Gionfriddo, J. Grandy, N. Alam and J. Pawliszyn, J. Chromatogr A 1579, 20-30 (2018).

18. Development of a hydrophilic-lipophilic balanced thin film solid-phase microextraction device for balanced determination of volatile organic compounds, J. Grandy, V. Singh, M. Lashgari, M. Gauthier and J. Pawliszyn, Analytical Chemistry 90, 14072-14080 (2018).

 Year 2017

1. High throughput solid phase microextraction: A new alternative for analysis of cellular lipidome? A. Birjandi, B. Bojko, Z. Ning, D. Figeys and J. Pawliszyn, J. Chromatogr B 1043, 12-19 (2017).

2. Development of a multichannel microfluidic system with Schlieren imaging microscopy for online chip-based moving boundary electrophoresis, A. Zarabadi, J. Pawliszyn, M. Hajialamdari, J. Chromatogr A 1484, 93-97 (2017).

3. Insights into the Effect of the PDMS-Layer on the Kinetics and Thermodynamics of Analyte Sorption onto the Matrix-Compatible Solid Phase Microextraction Coating, E. Souza-Silva, E. Gionfriddo, M. Alam and J. Pawliszyn, Anal. Chem. 89, 2978–2985 (2017).

4. Open Port Probe Sampling Interface for the Direct Coupling of Biocompatible Solid-Phase Microextraction to Atmospheric Pressure Ionization Mass Spectrometry, G. Goḿez-Ríos, C. Liu, M. Tascon, N. Reyes-Garceś, D. Arnold, T. Covey and J. Pawliszyn, Anal. Chem. 89, 3805-3809 (2017).

5. Time weighted average concentration monitoring based on thin film solid phase microextraction, F. Ahmadi, C. Sparham, E. Boyaci, and J. Pawliszyn, ES&T 51, 3929–3937 (2017).

6. New generation of SPME coatings for complementary separation approaches: a step toward comprehensive metabolomics and multiresidue analyses in complex matrices,E. Gionfriddo, E. Boyaci, and J. Pawliszyn,  Anal. Chem. 89, 4046–4054 (2017).

7. In vivo microsampling to capture the elusive exposome, V. Bessonneau, J. Ings, M. McMaster, R. Smith, Leslie Bragg, M. Servos, and J. Pawliszyn, Scientific Reports 7, 44038 (doi:10.1038/srep44038 (2017).

8. Calibrant Free Sampling and Enrichment with Solid-Phase Microextraction: Computational Simulation and Experimental Verification, Md. Nazmul Alam, Luis Ricardez-Sandoval, and Janusz Pawliszyn, Ind. Eng. Chem. Res., 56 (13), 3679–3686, (2017).

9. A new and efficient Solid Phase Microextraction approach for analysis of high-fat content food samples using a matrix-compatible coating, S. De Grazia, E. Gionfriddo, J. Pawliszyn, Talanta 167, 754-760 (2017).

10. Inter-laboratory validation of a thin film microextraction technique for determination of pesticides in surface water samples, H. Piri-Moghadam, E Gionfriddo, A Rodriguez-Lafuente, JJ Grandy, H L Lord, T Obal, J Pawliszyn, Analytica Chimica Acta 964, 74-84 (2017).

11. Ultra-fast quantitation of voriconazole in human plasma by coated blade spray mass spectrometry,  M. Tascon, G. Goḿez-Ríos, N. Reyes-Garceś, J Poole, E. Boyaci, and J. Pawliszyn, J. Pharmaceutical and Biomedical Analysis 144, 106-111 (2017).

12. The saliva exposome for monitoring of individual’s health trajectories, V. Bessonneau, J. Pawliszyn and S. Rappaport, Environ. Health Perspect. 125 doi:10.1289/Environmental Health Perspectives 1011 (2017).

13. Review of geometries and coating materials in solid phase microextraction: Opportunities, limitations, and future perspectives, H. Piri-Moghadam, N. Alam, J Pawliszyn, Analytica Chimica Acta 964, 42-65 (2017).

14. Towards on-site analysis of complex matrices by solid-phase microextraction-transmission mode coupled to a portable mass spectrometer: Via direct analysis in real time, G. Goḿez-Ríos, T. Vasiljevic, E. Gionfriddo and J. Pawliszyn, Analyst 142, 2928-2935 (2017).

15. High-Throughput Screening and Quantitation of Target Compounds in Biofluids by Coated Blade Spray-Mass Spectrometry, M. Tascon, G. Goḿez-Ríos, N. Reyes-Garceś, J Poole, E. Boyaci, and J. Pawliszyn, Anal. Chem. 89, 8421-8428 (2017).

16. Highly informative multiclass profiling of lipids by ultra-high-performance liquid chromatography – Low resolution (quadrupole) mass spectrometry by using electrospray ionization and atmospheric pressure chemical ionization interfaces, M. Beccaria, V. Inferrera, F. Rigano, K. Gorynski, G. Purcario, J. Pawliszyn, P. Dugo and L. Mondello., J. Chromatogr A 1509, 69-82 (2017).

17. Deposition of a Sorbent into a Recession on a Solid Support to Provide a New, Mechanically Robust Solid-Phase Microextraction Device, J. Poole, J. Grandy, M. Yu, E. Boyaci, G. Goḿez-Ríos, N. Reyes-Garceś, B. Bojko, H. Heide and J. Pawliszyn, Anal. Chem. 89, 8021-8026 (2017).

18. Ultrafast Screening and Quantitation of Pesticides in Food and Environmental Matrices by Solid-Phase Microextraction-Transmission Mode (SPME-TM) and Direct Analysis in Real Time (DART), G. Goḿez-Ríos, E. Gionfriddo, J Poole and J. Pawliszyn, Anal. Chem. 89, 7240-7248 (2017).

19. Comparing early liver graft function from heart beating and living-donors: A pilot study aiming to identify new biomarkers of liver injury, Q. Yang, M. Kluger, K. Gorynski, J. Pawliszyn, B. Bojko, A-M. Yu, K. Noh, A. Jerath, S. McCluskey, K. Pang and M. Wasowicz, Biopharmaceutics and Drug Disposition 38, 326-339 (2017).

20. Recent Advances in Solid-Phase Microextraction for Contaminant Analysis in Food Matrices, E. Souza-Silva and J. Pawliszyn, Comprehensive Analytical Chemistry 76, 483-517 (2017).

21. Fast quantitation of opioid isomers in human plasma by differential mobility spectrometry/mass spectrometry via SPME/open-port probe sampling interface, C. Liu, G. Goḿez-Ríos, B. Schneider, J. Le Blanc, N. Reyes-Garceś, D. Arnold, T. Covey and J. Pawliszyn, Analytica Chimica Acta 991, 89-94 (2017).

22. A flow-through aqueous standard generation system for thin film microextraction investigations of UV filters and biocides partitioning to different environmental compartments, F. Ahmadi, C. Sparham and J. Pawliszyn, Environmental Pollution 230, 663-673 (2017).

23.Rapid and Concomitant Analysis. of Pharmaceuticals in Treated Wastewater by Coated Blade Spray Mass Spectrometry, J Poole, G. Goḿez-Ríos, E. Boyaci, N. Reyes-Garceś and J. Pawliszyn, ES&T 51, 12566-12572 (2017).

24. Quantitative analysis of biofluid spots by coated blade spray mass spectrometry, a new approach to rapid screening, G. Goḿez-Ríos, M. Tascon, N. Reyes-Garceś, E. Boyaci, J Poole and J. Pawliszyn, Scientific Reports 7, 16104 (doi: 10.1038/s41598-017-16494-z (2017).

 Year 2016

1. Biocompatible Solid-Phase Microextraction Nanoelectrospray Ionization: An Unexploited Tool in Bioanalysis,, G. Gómez-Ríos, N. Reyes-Garcés, E. Boyaci, B. Bojko and J. Pawliszyn, Anal. Chem. 88, 1259–1265 (2016).

2. Capturing Plant Metabolome with Direct-Immersion in Vivo Solid Phase Microextraction of Plant Tissues, S. Risticevic, E. Silva, J. DeEll, J. Cochran and J. Pawliszyn, Anal. Chem. 88, 1266–1274 (2016).

3.  Development of a carbon mesh supported thin film microextraction membrane as a means to lower the detection limits of benchtop and portable GC-MS instrumentation, J. Grandy, E. Boyaci and J. Pawliszyn, Anal. Chem. 88, 1760–1767 (2016).

4. Cinnamaldehyde Characterization as an Antibacterial Agent toward E. coli Metabolic Profile Using 96-Blade Solid-Phase Microextraction Coupled to Liquid Chromatography-Mass Spectrometry, F. Mousavi, B. Bojko, V. Bessonneau and J. Pawliszyn,J. Proteome Res. 15, 963–975 (2016).

5. Fast quantitation of target analytes in small volumes of complex samples by matrix-compatible Solid Phase Microextraction devices, H. Piri-Moghadam, F. Ahmadi, G. Gómez-Ríos, E. Boyacı, N. Reyes-Garcés, A. Aghakhani, B. Bojko and J. Pawliszyn,  Agewandte Chemie 55, 7510-7514 (2016).

6. A study of thin film solid-phase microextraction methods for analysis of fluorinated benzoic acids in seawater, E. Boyaci, K. Gorynski, C. Viteri and J. Pawliszyn, J. Chromatogr A 1436, 51-58 (2016).

7. A digital microfluidic interface between solid-phase microextraction and liquid chromatography-mass spectrometry, K. Choi, E. Boyaci, J. Kim, B. Seale, L. Barrera-Arbelaez, J. Pawliszyn, A. Wheeler, J. Chromatogr A 1444, 1-7 (2016).

8. Glossary of terms used in extraction (IUPAC Recommendations 2016), C. Poole, Z. Mester, M. Miro, S. Pedersen-Bjergaard and J. Pawliszyn, Pure and Applied Chemistry 88, 517-558 (2016).

9. Methodical evaluation and improvement of matrix compatible PDMS-overcoated coating for direct immersion solid phase microextraction gas chromatography (DI-SPME-GC)-based applications, E. Souza-Silva, E. Gionfriddo, R. Shirey, L. Sidisky and J. Pawliszyn, Anal. Chimica Acta 920, 54-62 (2016).

10. Extraction for analytical scale sample preparation (IUPAC Technical Report, C. Poole, Z. Mester, M. Miro, S. Pedersen-Bjergaard and J. Pawliszyn, Pure and Applied Chemistry 88, 649-689 (2016).

11. Solid phase microextraction on-fiber derivatization using a stable, portable, and reusable pentafluorophenyl hydrazine standard gas generating vial, J. Poole, J. Grandy, G. Gomez-Rios, E. Gionfriddo and J. Pawliszyn, Anal. Chem. 88, 6859-6866 (2016).

12. A facile and fully automated on-fiber derivatization protocol for direct analysis of short-chain aliphatic amines using a matrix compatible solid-phase microextraction coating, E. Gionfriddo, A. Passarini and J. Pawliszyn, J. Chromatogr A 1457, 22-28 (2016).

13. The automatic use of capillary isoelectric focusing with whole column imaging detection for carbamazepine binding to human serum albumin, M. Maciążek-Jurczyk and J. Pawliszyn, Journal of Pharmaceutical and Biomedical Analysis 127, 9-17 (2016).

14. Matrix compatible solid phase microextraction coating, a greener approach to sample preparation in vegetable matrices, A. Naccarato and J. Pawliszyn, Food Chemistry 206, 67-73 (2016).

15. Numerical Simulation and Experimental Validation of Calibrant-Loaded Extraction Phase Standardization Approach, M. Alam and J. Pawliszyn, Anal. Chem. 88, 8632-8639 (2016).

16. Determination of Polycyclic Aromatic Hydrocarbons in Sediment by Pressure-Balanced Cold Fiber Solid Phase Microextraction, S. Xu, Q. Shai and J. Pawliszyn,Anal. Chem. 88, 8936-8941 (2016).

17. Coupling solid phase microextraction to complementary separation platforms for metabotyping of E. coli metabolome in response to natural antibacterial agents (front cover article), F. Mousavi, E. Gionfriddo, E. Carasek, E. Souza-Silva and J. Pawliszyn, Metabolomics 12, 169, 1-13 (2016).

18. Inter-laboratory validation of automated SPME-GC/MS for determination of pesticides in surface and ground water samples: Sensitive and green alternative to liquid–liquid extraction, A. Rodríguez-Lafuente, H. Piri-Moghadam, H. Lord, T. Obal and J. Pawliszyn, Water Quality Research Journal of Canada 51, 331-343 (2016).

19. Major liver resection, systemic fibrinolytic activity, and the impact of tranexamic acid, P. Karanikolas, Y. Lin, J. Tarshis, C. Law, N. Coburn, J. Hallet, B. Nascimento, J. Pawliszyn, S. McCuskey,HPB 18, 991-999 (2016).

20. Pharmacokinetics of tranexamic acid in Cardiac Surgical Patients Suffering from Kidney Dysfunction, M. Wasowicz, J. Yang, B. Bojko, J.  Pawliszyn, N. Looby, S. Pang, A. Jerath, Critical Care Medicine 18, 12, 123 (2016).

21. A critical review of solid phase microextraction for analysis of water samples, H. Piri-Moghadam, F. Ahmadi and J. Pawliszyn, Trends in Anal. Chem. 85, 133-143 (2016).

22. Development of a biocompatible In-Tube Solid-Phase Microextraction device: A sensitive approach for direct analysis of single drops of complex matrixes, H. Piri-Moghadam, S. Lendor, J. Pawliszyn, Anal. Chem. 88, 12188-12195 (2016).

 Year 2015

1. Accurate determination of the diffusion coefficient of proteins by fourier analysis with whole column imaging detection, A. Zarabadi and J. Pawliszyn, Anal. Chem. 87, 2100-2106 (2015).

2.In vivo solid phase microextraction sampling of human saliva for non-invasive and on-site monitoring, V. Bessonneau, E. Boyaci, M. Maciazek-Jurczyk and J. Pawliszyn,  Anal. Chimica Acta 856, 35-45 (2015).

3. Bioanalytical method for in vitro metabolism study of repaglinide using 96-blade thin-film solid-phase microextraction and LC-MS/MS, R. Simoes, P. Bonato, F. Mirnaghi, B. Bojko, and J. Pawliszyn, Bioanalysis. 7, 65-77 (2015).

4. Sample preparation with solid phase microextraction and exhaustive extraction approaches: Comparison for challenging cases, E. Boyaci, A. Rodrigues-Lafluente, K. Gorynski, F. Mirnaghi, E. Souza-Silva, D. Hein and J. Pawliszyn,  Anal. Chimica Acta 873, 14-30 (2015).

5. Direct immersion solid-phase microextraction with matrix-compatible fiber coating for multiresidue pesticide analysis of grapes by gas chromatography-time-of-flight mass spectrometry (DI-SPME-GC-ToFMS),E. Silva and J. Pawliszyn, JAFC 18, 4464-4477 (2015).

6. A critical review of the state of the art of solid-phase microextraction of complex matrices I. Environmental analysis, E. Silva, R. Jiang, A. Rodríguez-Lafuente, E. Gionfriddo and J. Pawliszyn, Trends in Anal. Chem. 71, 224-235 (2015).

7. A critical review of the state of the art of solid-phase microextraction of complex matrices II. Food analysis, E. Silva, E. Gionfriddo and J. Pawliszyn,Trends in Anal. Chem. 71, 236-248 (2015).

8. A critical review of the state of the art of solid-phase microextraction of complex matrices III. Bioanalytical and clinical applications, E. Silva, N. Reyes-Garcés, G. Gómez-Ríos, E. Boyaci, B. Bojko and J. Pawliszyn, Trends in Anal. Chem. 71, 249-264 (2015).

9. Selective Extraction and Enrichment of Glycoproteins Based on Boronate Affinity SPME and Determination by CIEF-WCID, L. Li, Z. Xia, and J. Pawliszyn, Anal. Chimica Acta 886, 83-90 (2015).

10.  Targeting Mitochondria with Avocatin B Induces Selective Leukemia Cell Death, E. Lee, L. Angka, S. Rota, T. Hanlon, A. Mitchell, R. Hurren, X.  Wang, M. Gronda, E. Boyaci, B. Bojko, M. Minden, S. Sriskanthadevan, A. Datti, J.  Wrana, A. Edginton, J. Pawliszyn, J. Joseph, J. Quadrilatero, A. Schimmer, P. Spagnuolo, Cancer Research 75, 2478-2488 (2015).

11.  Headspace versus Direct Immersion Solid Phase Microextraction in Complex Matrixes: Investigation of Analyte Behavior in Multicomponent Mixtures, E. Gionfriddo, E. Silva and J. Pawliszyn, Anal. Chem. 87, 2100-2106 (2015).

12.  Development of a standard gas generating vial comprised of a silicon oil-polystyrene/divinylbenzene composite sorbent, J. Grandy, G. Gomez-Rios and J. Pawliszyn, J. Chromatogr A 1410, 1-9 (2015).

13.  Development of high throughput 96-blade solid phase microextraction-liquid chromatrography-mass spectrometry protocol for metabolomics, F. Mousavi, B. Bojko and J. Pawliszyn,  Anal. Chimica Acta 892, 95-104 (2015).

14.  Evaluation of a multi-fiber exchange solid-phase microextraction system and its application to on-site sampling, G. Gómez-Ríos, N. Reyes-Garcés and J. Pawliszyn, J. Separation Sci 38, 3560-3567 (2015).

15.  Solid Phase Microextraction Devices Prepared on Plastic Support as Potential Single-Use Samplers for Bioanalytical Applications, N. Reyes-Garces, B. Bojko, D. Hein and J. Pawliszyn, Anal. Chem. 87, 9722-9730 (2015).

16.  In vivo solid-phase microextraction liquid chromatography-tandem mass spectrometry for monitoring blood eicosanoids time profile after lipopolysaccharide-induced inflammation in Sprague-Dawley rats,V. Bessonneau, Y. Zhan, I. Lannoy, V. Saldivia and J. Pawliszyn, J. Chromatogr A 1424, 134-138 (2015).

17.   Numerical Modeling of Solid-Phase Microextraction: Binding Matrix Effect on Equilibrium TimeBehavior in Multicomponent Mixtures, A. Nazmul, L. Ricardez-Sandoval and J. Pawliszyn, Anal. Chem. 87, 9846-9854 (2015).

Year 2014

1. Asl-Hariri, S.; Gomez-Rios, G. A.; Gionfriddo, E.; Dawes, P.; Pawliszyn, J. Development of Needle Trap Technology for On-Site Determinations: Active and Passive Sampling. Anal. Chem. 2014, 86, 5889-5897.

2. Bessonneau, V.; Bojko, B.; Pawliszyn, J. In situ chemical exploration of underwater ecosystems with microsampling/enrichment device. J. Chromatogr. A 2014, 1328, 113-117.

3. Bojko, B.; Gorynski, K.; Gomez-Rios, G. A.; Knaak, J. M.; Machuca, T.; Cudjoe, E.; Spetzler, V. N.; Hsin, M.; Cypel, M.; Selzner, M.; Liu, M.; Keshjavee, S.; Pawliszyn, J. Low invasive in vivo tissue sampling for monitoring biomarkers and drugs during surgery. Lab. Invest. 2014, 94, 586-594.

4. Bojko, B.; Pawliszyn, J. In vivo and ex vivo SPME: a low invasive sampling and sample preparation tool in clinical bioanalysis. Bioanalysis 2014, 6, 1227-1239.

5. Boyaci, E.; Gorynski, K.; Rodriguez-Lafuente, A.; Bojko, B.; Pawliszyn, J. Introduction of solid-phase microextraction as a high-throughput sample preparation tool in laboratory analysis of prohibited substances. Anal. Chim. Acta 2014, 809, 69-81.

6. Boyaci, E.; Sparham, C.; Pawliszyn, J. Thin-film microextraction coupled to LC-ESI-MS/MS for determination of quaternary ammonium compounds in water samples. Anal. Bioanal. Chem. 2014, 406, 409-420.

7. Cudjoe, E.; Pawliszyn, J. Optimization of solid phase microextraction coatings for liquid chromatography mass spectrometry determination of neurotransmitters. J. Chromatogr. A 2014, 1341, 1-7.

8. Gorynski, K.; Bojko, B.; Kluger, M.; Jerath, A.; Wasowicz, M.; Pawliszyn, J. Development of SPME method for concomitant sample preparation of rocuronium bromide and tranexamic acid in plasma. J. Pharm. Biomed. Anal. 2014, 92, 183-192.

9. Jiang, R.; Pawliszyn, J. Preparation of a Particle-Loaded Membrane for Trace Gas Sampling. Anal. Chem. 2014, 86, 403-410.

10. Jiang, R.; Pawliszyn, J. Cooled membrane for high sensitivity gas sampling. J. Chromatogr. A 2014, 1338, 17-23.

11. Yang, Y.; Rodriguez-Lafuente, A.; Pawliszyn, J. Thermoelectric-based temperature-controlling system for in-tube solid-phase microextraction. J. Sep. Sci. 2014, 37, 1617-1621. 

Year 2013

1. Bai, Z.; Pilote, A.; Sarker, P. K.; Vandenberg, G.; Pawliszyn, J. In Vivo Solid-Phase Microextraction with in Vitro Calibration: Determination of Off-Flavor Components in Live Fish. Anal. Chem. 2013, 85, 2328-2332.

2. Bessonneau, V.; Bojko, B.; Pawliszyn, J. Analysis of human saliva metabolome by direct immersion solid-phase microextraction LC and benchtop orbitrap MS. Bioanalysis 2013, 5, 783-792.

3. Bojko, B.; Gorynski, K.; Gomez-Rios, G. A.; Knaak, J. M.; Machuca, T.; Spetzler, V. N.; Cudjoe, E.; Hsin, M.; Cypel, M.; Selzner, M.; Liu, M.; Keshavjee, S.; Pawliszyn, J. Solid phase microextraction fills the gap in tissue sampling protocols. Anal. Chim. Acta 2013, 803, 75-81.

4. Cheng, W.; Zhan, W.; Pawliszyn, J. Gaseous and Particle-bound VOC Products of Combustion Extracted by Needle Trap Samplers. J. Chin. Chem. Soc. 2013, 60, 1027-1032.

5. Cudjoe, E.; Bojko, B.; de Lannoy, I.; Saldivia, V.; Pawliszyn, J. Solid-Phase Microextraction: A Complementary In Vivo Sampling Method to Microdialysis. Angew. Chem. -Int. Edit. 2013, 52, 12124-12126.

6. Gomez-Rios, G. A.; Reyes-Garces, N.; Pawliszyn, J. Development of a new in-vial standard gas system for calibrating solid-phase microextraction in high-throughput and on-site applications. J. Sep. Sci. 2013, 36, 2939-2945.

7. Gorynski, K.; Bojko, B.; Nowaczyk, A.; Bucinski, A.; Pawliszyn, J.; Kaliszan, R. Quantitative structure-retention relationships models for prediction of high performance liquid chromatography retention time of small molecules: Endogenous metabolites and banned compounds. Anal. Chim. Acta 2013, 797, 13-19.

8. Guo, J.; Jiang, R.; Pawliszyn, J. Determination of polycyclic aromatic hydrocarbons in solid matrices using automated cold fiber headspace solid phase microextraction technique. J. Chromatogr. A 2013, 1307, 66-72.

9. Hossain, S. M. Z.; Bojko, B.; Pawliszyn, J. Automated SPME-GC-MS monitoring of headspace metabolomic responses of E. coli to biologically active components extracted by the coating. Anal. Chim. Acta 2013, 776, 41-49.

10. Jiang, R.; Cudjoe, E.; Bojko, B.; Abaffy, T.; Pawliszyn, J. A non-invasive method for in vivo skin volatile compounds sampling. Anal. Chim. Acta 2013, 804, 111-119.

11. Kermani, F. R.; Tugulea, A.; Hnatiw, J.; Niri, V. H.; Pawliszyn, J. Application of automated solid-phase microextraction to determine haloacetonitriles, haloketones, and chloropicrin in Canadian drinking water. Water Qual. Res. J. Can. 2013, 48, 85-98.

12. Kluger, M.; Gorynski, K.; Jerath, A.; Bojko, B.; McCluskey, S.; Pawliszyn, J.; Wasowicz, M. Composite assessment of early graft dysfunction and drug monitoring in liver transplant recipients. Crit. Care Med. 2013, 41.

13. Kueseng, P.; Pawliszyn, J. Carboxylated multiwalled carbon nanotubes/polydimethylsiloxane, a new coating for 96-blade solid-phase microextraction for determination of phenolic compounds in water. J. Chromatogr. A 2013, 1317, 199-202.

14. Mirnaghi, F. S.; Gorynski, K.; Rodriguez-Lafuente, A.; Boyaci, E.; Bojko, B.; Pawliszyn, J. Microextraction versus exhaustive extraction approaches for simultaneous analysis of compounds in wide range of polarity. J. Chromatogr. A 2013, 1316, 37-43.

15. Mirnaghi, F. S.; Hein, D.; Pawliszyn, J. Thin-Film Microextraction Coupled with Mass Spectrometry and Liquid Chromatography-Mass Spectrometry. Chromatographia 2013, 76, 1215-1223.

16. Mirnaghi, F. S.; Mousavi, F.; Rocha, S. M.; Pawliszyn, J. Automated determination of phenolic compounds in wine, berry, and grape samples using 96-blade solid phase microextraction system coupled with liquid chromatography-tandem mass spectrometry. J. Chromatogr. A 2013, 1276, 12-19.

17. Mousavi, F.; Pawliszyn, J. Silica-based ionic liquid coating for 96-blade system for extraction of aminoacids from complex matrixes. Anal. Chim. Acta 2013, 803, 66-74.

18. Reyes-Garces, N.; Gomez-Rios, G. A.; Silva, E. A. S.; Pawliszyn, J. Coupling needle trap devices with gas chromatography-ion mobility spectrometry detection as a simple approach for on-site quantitative analysis. J. Chromatogr. A 2013, 1300, 193-198.

19. Risticevic, S.; Pawliszyn, J. Solid-Phase Microextraction in Targeted and Nontargeted Analysis: Displacement and Desorption Effects. Anal. Chem. 2013, 85, 8987-8995.

20. Rivellino, S. R.; Hantao, L. W.; Risticevic, S.; Carasek, E.; Pawliszyn, J.; Augusto, F. Detection of extraction artifacts in the analysis of honey volatiles using comprehensive two-dimensional gas chromatography. Food Chem. 2013, 141, 1828-1833.

21. Rodriguez-Lafuente, A.; Mirnaghi, F. S.; Pawliszyn, J. Determination of cocaine and methadone in urine samples by thin-film solid-phase microextraction and direct analysis in real time (DART) coupled with tandem mass spectrometry. Anal. Bioanal. Chem. 2013, 405, 9723-9727.

22. Silva, E. A. S.; Risticevic, S.; Pawliszyn, J. Recent trends in SPME concerning sorbent materials, configurations and in vivo applications. Trac-Trends Anal. Chem. 2013, 43, 24-36.

23. Souza-Silva, E. A.; Lopez-Avila, V.; Pawliszyn, J. Fast and robust direct immersion solid phase microextraction coupled with gas chromatography-time-of-flight mass spectrometry method employing a matrix compatible fiber for determination of triazole fungicides in fruits. J. Chromatogr. A 2013, 1313, 139-146.

24. Togunde, O. P.; Lord, H.; Oakes, K. D.; Servos, M. R.; Pawliszyn, J. Development and evaluation of a new in vivo solid-phase microextraction sampler. J. Sep. Sci. 2013, 36, 219-223.

25. Warren, J. M.; Parkinson, D.; Pawliszyn, J. Assessment of Thiol Compounds from Garlic by Automated Headspace Derivatized In-Needle-NTD-GC-MS and Derivatized In-Fiber-SPME-GC-MS. J. Agric. Food Chem. 2013, 61, 492-500.

26. Yang, Y.; Lord, H.; Pawliszyn, J. A new strategy to eliminate sample mixing during in-tube solid phase microextraction. J. Chromatogr. A 2013, 1318, 12-21. 

Year 2012

1. Bojko, B.; Cudjoe, E.; Gomez-Rios, G. A.; Gorynski, K.; Jiang, R.; Reyes-Garces, N.; Risticevic, S.; Silva, E. A. S.; Togunde, O.; Vuckovic, D.; Pawliszyn, J. SPME - Quo vadis? Anal. Chim. Acta 2012, 750, 132-151.

2. Bojko, B.; Pawliszyn, J. The benefits of using solid-phase microextraction as a greener sample preparation technique. Bioanalysis 2012, 4, 1263-1265.

3. Bojko, B.; Pawliszyn, J. The benefits of using solid-phase microextraction as a greener sample preparation technique. Bioanalysis 2012, 4, 1263-1265.

4. Cudjoe, E.; Bojko, B.; Togunde, P.; Pawliszyn, J. In vivo solid-phase microextraction for tissue bioanalysis. Bioanalysis 2012, 4, 2605-2619.

5. Jiang, R.; Carasek, E.; Risticevic, S.; Cudjoe, E.; Warren, J.; Pawliszyn, J. Evaluation of a completely automated cold fiber device using compounds with varying volatility and polarity. Anal. Chim. Acta 2012, 742, 22-29.

6. Jiang, R.; Pawliszyn, J. Thin-film microextraction offers another geometry for solid-phase microextraction. Trac-Trends Anal. Chem. 2012, 39, 245-253.

7. Kermani, F. R.; Pawliszyn, J. Sorbent Coated Glass Wool Fabric as a Thin Film

8. Lee, X.; Huang, D.; Lou, D.; Pawliszyn, J. Needle trap extraction for GC analysis of formic and acetic acids in aqueous solution. J. Sep. Sci. 2012, 35, 1675-1681.

11. Lord, H.; Pawliszyn, J. Introduction to SPME for In Vivo Analysis. LC GC Eur. 2012, 25, 180-+.

12. Mirnaghi, F. S.; Monton, M. R. N.; Pawliszyn, J. Thin-film octadecyl-silica glass coating for automated 96-blade solid-phase microextraction coupled with liquid chromatography tandem mass spectrometry for analysis of benzodiazepines. J. Chromatogr. A 2012, 1246, 2-8.

13. Mirnaghi, F. S.; Pawliszyn, J. Reusable Solid-Phase Microextraction Coating for Direct Immersion Whole-Blood Analysis and Extracted Blood Spot Sampling Coupled with Liquid Chromatography-Tandem Mass Spectrometry and Direct Analysis in Real-Time Tandem Mass Spectrometry. Anal. Chem. 2012, 84, 8301-8309.

14. Mirnaghi, F. S.; Pawliszyn, J. Development of coatings for automated 96-blade solid phase microextraction-liquid chromatography-tandem mass spectrometry system, capable of extracting a wide polarity range of analytes from biological fluids. J. Chromatogr. A 2012, 1261, 91-98.

15. Risticevic, S.; DeEll, J. R.; Pawliszyn, J. Solid phase microextraction coupled with comprehensive two-dimensional gas chromatography-time-of-flight mass spectrometry for high-resolution metabolite profiling in apples: Implementation of structured separations for optimization of sample preparation procedure in complex samples. J. Chromatogr. A 2012, 1251, 208-218.

16. Sanchez-Prado, L.; Kalafata, K.; Risticevic, S.; Pawliszyn, J.; Lores, M.; Llompart, M.; Kalogerakis, N.; Psillakis, E. Ice photolysis of 2,2 ',4,4 ',6-pentabromodiphenyl ether (BDE-100): Laboratory investigations using solid phase microextraction. Anal. Chim. Acta 2012, 742, 90-96.

17. Sanchez-Prado, L.; Kalafata, K.; Risticevic, S.; Pawliszyn, J.; Lores, M.; Llompart, M.; Kalogerakis, N.; Psillakis, E. Ice photolysis of 2,2 ',4,4 ',6-pentabromodiphenyl ether (BDE-100): Laboratory investigations using solid phase microextraction. Anal. Chim. Acta 2012, 742, 90-96.

18. Silva, E. A. S.; Pawliszyn, J. Optimization of Fiber Coating Structure Enables Direct Immersion Solid Phase Microextraction and High-Throughput Determination of Complex Samples. Anal. Chem. 2012, 84, 6933-6938.

19. Togunde, O. P.; Cudjoe, E.; Oakes, K. D.; Mirnaghi, F. S.; Servos, M. R.; Pawliszyn, J. Determination of selected pharmaceutical residues in wastewater using an automated open bed solid phase microextraction system. J. Chromatogr. A 2012, 1262, 34-42.

20. Togunde, O. P.; Oakes, K. D.; Servos, M. R.; Pawliszyn, J. Optimization of solid phase microextraction for non-lethal in vivo determination of selected pharmaceuticals in fish muscle using liquid chromatography-mass spectrometry. J. Chromatogr. A 2012, 1261, 99-106.

21. Togunde, O. P.; Oakes, K.; Servos, M.; Pawliszyn, J. Study of kinetic desorption rate constant in fish muscle and agarose gel model using solid phase microextraction coupled with liquid chromatography with tandem mass spectrometry. Anal. Chim. Acta 2012, 742, 2-9.

22. Yeung, J. C. Y.; de Lannoy, I.; Gien, B.; Vuckovic, D.; Yang, Y.; Bojko, B.; Pawliszyn, J. Semi-automated in vivo solid-phase microextraction sampling and the diffusion-based interface calibration model to determine the pharmacokinetics of methoxyfenoterol and fenoterol in rats. Anal. Chim. Acta 2012, 742, 37-44.

23. Zhan, W.; Pawliszyn, J. Investigation and optimization of particle dimensions for needle trap device as an exhaustive active sampler. J. Chromatogr. A 2012, 1260, 54-60.

Year 2011

1. Bojko, B.; Cudjoe, E.; Wasowicz, M.; Pawliszyn, J. Solid-phase microextraction. How far are we from clinical practice? Trac-Trends Anal. Chem. 2011, 30, 1505-1512.

2. Bojko, B.; Vuckovic, D.; Cudjoe, E.; Hoque, M. E.; Mirnaghi, F.; Wasowicz, M.; Jerath, A.; Pawliszyn, J. Determination of tranexamic acid concentration by solid phase microextraction and liquid chromatography-tandem mass spectrometry: First step to in vivo analysis. J. Chromatogr. B 2011, 879, 3781-3787.

3. Cheng, W.; Zhan, W.; Pawliszyn, J. Extraction of Gaseous VOCs Using Passive Needle Trap Samplers. Aerosol Air Qual. Res. 2011, 11, 387-392.

4. Hu, X.; Mu, L.; Zhou, Q.; Wen, J.; Pawliszyn, J. ssDNA Aptamer-Based Column for Simultaneous Removal of Nanogram Per Liter Level of Illicit and Analgesic Pharmaceuticals in Drinking Water. Environ. Sci. Technol. 2011, 45, 4890-4895.

5. Lord, H. L.; Zhang, X.; Musteata, F. M.; Vuckovic, D.; Pawliszyn, J. In vivo solid-phase microextraction for monitoring intravenous concentrations of drugs and metabolites. Nat. Protoc. 2011, 6, 896-924.

6. Ouyang, G.; Vuckovic, D.; Pawliszyn, J. Nondestructive Sampling of Living Systems Using in Vivo Solid-Phase Microextraction. Chem. Rev. 2011, 111, 2784-2814.

7. Pawliszyn, J. Integration and miniaturization facilitate on-site and in-vivo analysis. Trac-Trends Anal. Chem. 2011, 30, 1363-1364.

8. Pawliszyn, J. In-vivo solid phase microextraction. Abstr. Pap. Am. Chem. Soc. 2011, 242.

9. Shameli, S. M.; Elbuken, C.; Ou, J.; Ren, C. L.; Pawliszyn, J. Fully integrated PDMS/SU-8/quartz microfluidic chip with a novel macroporous poly dimethylsiloxane (PDMS) membrane for isoelectric focusing of proteins using whole-channel imaging detection. Electrophoresis 2011, 32, 333-339.

10. Shameli, S. M.; Elbuken, C.; Ren, C. L.; Pawliszyn, J. Integration of a Pdms/su-8/quartz Microfluidic Chip with a Novel Macroporous Poly Dimethylsiloxane (Pdms) Membrane for Isoelectric Focusing of Proteins using Whole-Channel Imaging Detection; AMER SOC MECHANICAL ENGINEERS: NEW YORK; THREE PARK AVENUE, NEW YORK, NY 10016-5990 USA, 2011; , pp 906.

11. Vuckovic, D.; de Lannoy, I.; Gien, B.; Shirey, R. E.; Sidisky, L. M.; Dutta, S.; Pawliszyn, J. In Vivo Solid-Phase Microextraction: Capturing the Elusive Portion of Metabolome. Angew. Chem. -Int. Edit. 2011, 50, 5344-5348.

12. Vuckovic, D.; de Lannoy, I.; Gien, B.; Yang, Y.; Musteata, F. M.; Shirey, R.; Sidisky, L.; Pawliszyn, J. In vivo solid-phase microextraction for single rodent pharmacokinetics studies of carbamazepine and carbamazepine-10,11-epoxide in mice. J. Chromatogr. A 2011, 1218, 3367-3375.

13. Vuckovic, D.; Pawliszyn, J. Systematic Evaluation of Solid-Phase Microextraction Coatings for Untargeted Metabolomic Profiling of Biological Fluids by Liquid Chromatography-Mass Spectrometry. Anal. Chem. 2011, 83, 1944-1954.

14. Vuckovic, D.; Risticevic, S.; Pawliszyn, J. In Vivo Solid-Phase Microextraction in Metabolomics: Opportunities for the Direct Investigation of Biological Systems. Angew. Chem. -Int. Edit. 2011, 50, 5618-5628.

15. Wang, S.; Oakes, K. D.; Bragg, L. M.; Pawliszyn, J.; Dixon, G.; Servos, M. R. Validation and use of in vivo solid phase micro-extraction (SPME) for the detection of emerging contaminants in fish. Chemosphere 2011, 85, 1472-1480.

16. Warren, J. M.; Pawliszyn, J. Development and evaluation of needle trap device geometry and packing methods for automated and manual analysis. J. Chromatogr. A 2011, 1218, 8982-8988.

17. Xie, W.; Mullett, W.; Pawliszyn, J. High-throughput polymer monolith in-tip SPME fiber preparation and application in drug analysis. Bioanalysis 2011, 3, 2613-2625.

18. Zhan, Y.; Musteata, F. M.; Basset, F. A.; Pawliszyn, J. Determination of free and deconjugated testosterone and epitestosterone in urine using SPME and LC-MS/MS. Bioanalysis 2011, 3, 23-30.

19. Zhang, X.; Oakes, K. D.; Hoque, M. E.; Luong, D.; Metcalfe, C. D.; Pawliszyn, J.; Servos, M. R. Pre-Equilibrium Solid-Phase Microextraction of Free Analyte in Complex Samples: Correction for Mass Transfer Variation from Protein Binding and Matrix Tortuosity. Anal. Chem. 2011, 83, 3365-3370.

20. Zhang, X.; Oakes, K. D.; Luong, D.; Metcalfe, C. D.; Pawliszyn, J.; Servos, M. R. Kinetically-Calibrated Solid-Phase Microextraction Using Label-Free Standards and Its Application for Pharmaceutical Analysis. Anal. Chem. 2011, 83, 2371-2377. 

Year 2010

1. Breton, F.; Monton, M. R. N.; Mullett, W. M.; Pawliszyn, J. Silicate-entrapped porous coatings for preparing high-efficiency solid-phase microextraction sorbents. Anal. Chim. Acta 2010, 669, 39-44.

2. Kaykhaii, M.; Dicinoski, G. W.; Smedley, R.; Pawliszyn, J.; Haddad, P. R. Preparation and evaluation of solid-phase microextraction fibres based on functionalized latex nanoparticle coatings for trace analysis of inorganic anions. J. Chromatogr. A 2010, 1217, 3452-3456.

3. Kaykhaii, M.; Dicinoski, G. W.; Smedley, R.; Pawliszyn, J.; Haddad, P. R. Preparation and evaluation of solid-phase microextraction fibres based on functionalized latex nanoparticle coatings for trace analysis of inorganic anions. J. Chromatogr. A 2010, 1217, 3452-3456.

4. Li, X.; Ouyang, G.; Lord, H.; Pawliszyn, J. Theory and Validation of Solid-Phase Microextraction and Needle Trap Devices for Aerosol Sample. Anal. Chem. 2010, 82, 9521-9527.

5. Lord, H. L.; Zhan, W.; Pawliszyn, J. Fundamentals and applications of needle trap devices A critical review. Anal. Chim. Acta 2010, 677, 3-18.

6. Morley, M.; Pawliszyn, J. Membrane Extraction With a Sorbent Interface and Gas Chromatography for the Characterization of Ethylene in Human Breath. IEEE Sens. J. 2010, 10, 167-172.

7. Ou, J.; Ren, C. L.; Pawliszyn, J. A simple method for preparation of macroporous polydimethylsiloxane membrane for microfluidic chip-based isoelectric focusing applications. Anal. Chim. Acta 2010, 662, 200-205.

8. Pawliszyn, J. Award Address (ACS Award in Separations Science and Technology Sponsored by the Waters Corporation). Unified theory of extraction: Where does microextraction fit? Abstr. Pap. Am. Chem. Soc. 2010, 239.

9. Qin, Z.; Mok, S.; Ouyang, G.; Dixon, D. G.; Pawliszyn, J. Partitioning and accumulation rates of polycyclic aromatic hydrocarbons into polydimethylsiloxane thin films and black worms from aqueous samples. Anal. Chim. Acta 2010, 667, 71-76.

10. Risticevic, S.; Chen, Y.; Kudlejova, L.; Vatinno, R.; Baltensperger, B.; Stuff, J. R.; Hein, D.; Pawliszyn, J. Protocol for the development of automated high-throughput SPME-GC methods for the analysis of volatile and semivolatile constituents in wine samples. Nat. Protoc. 2010, 5, 162-176.

11. Risticevic, S.; Lord, H.; Gorecki, T.; Arthur, C. L.; Pawliszyn, J. Protocol for solid-phase microextraction method development. Nat. Protoc. 2010, 5, 122-139.

12. Vuckovic, D.; Cudjoe, E.; Musteata, F. M.; Pawliszyn, J. Automated solid-phase microextraction and thin-film microextraction for high-throughput analysis of biological fluids and ligand-receptor binding studies. Nat. Protoc. 2010, 5, 140-161.

13. Vuckovic, D.; Zhang, X.; Cudjoe, E.; Pawliszyn, J. Solid-phase microextraction in bioanalysis: New devices and directions. J. Chromatogr. A 2010, 1217, 4041-4060.

14. Yeung, J. C. Y.; Vuckovic, D.; Pawliszyn, J. Comparison and validation of calibration methods for in vivo SPME determinations using an artificial vein system. Anal. Chim. Acta 2010, 665, 160-166.

15. Zhang, X.; Oakes, K. D.; Cui, S.; Bragg, L.; Servos, M. R.; Pawliszyn, J. Tissue-Specific In Vivo Bioconcentration of Pharmaceuticals in Rainbow Trout (Oncorhynchus mykiss) Using Space-Resolved Solid-Phase Microextraction. Environ. Sci. Technol. 2010, 44, 3417-3422.

16. Zhang, X.; Oakes, K. D.; Luong, D.; Wen, J. Z.; Metcalfe, C. D.; Pawliszyn, J.; Servos, M. R. Temporal Resolution of Solid-Phase Microextraction: Measurement of Real-Time Concentrations within a Dynamic System. Anal. Chem. 2010, 82, 9492-9499. 

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