ÿþ<html> <head> <meta http-equiv="Content-Type" content="text/html; charset=ISO-8859-2"> <meta name="keywords" content="Pawel Pohl, Analytical Chemistry Division, Faculty of Chemistry, Wroclaw University of Technology"> <meta name="description" content="Pawel Pohl webpage"> <meta name="Author" content="Pawel Pohl"> <link rel=stylesheet href="style.css" type="text/css"> <title>Pawel POHL</title> </head> <body> <H1>Assoc. Prof. Pawel Pohl, Ph. D., D. Sc.</H1> <P style="Margin-top: 5px; margin-left: 10 px"; font-weight: bold; size: 10px">A member of the <a href="http://www.bee-hexagon.net/en/home.htm">BEE-HEXAGONE</a></P> <BR> <DIV id="normal"> <P> <TABLE style="width: 1200px"> <TBODY> <TR> <TD style="VERTICAL-ALIGN: top; width: 1000px"><SPAN class="pogr">Date and place of birth:</SPAN> December 4, 1974; Wroclaw, Poland</TD> <TD style="VERTICAL-ALIGN: top; width: 200px" rowspan="6"><IMG style="width: 252px; height: 227px; align: center" alt="Pawel Pohl" src="pohl.jpg"></TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; width: 1000px"><SPAN class="pogr">Civil status:</SPAN> married to Aleksandra Bielawska-Pohl, two daughters: Natalia and Marta</TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; width: 1000px"><SPAN class="pogr">Address:</SPAN> Wroclaw University of Technology, Faculty of Chemistry <BR>Wybrzeze Stanislawa Wyspianskiego 27, 50-370 Wroclaw, Poland</TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; width: 1000px"><SPAN class="pogr">Phone:</SPAN> +48-71-3203445; <SPAN class="pogr">fax:</SPAN> +48-71-3202494</TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; width: 1000px"><SPAN class="pogr">E-mail: </SPAN><A href="mailto:pawel.pohl@pwr.wroc.pl">pawel.pohl(at)pwr.wroc.pl</A></TD> </TR> </TBODY> </TABLE> </P> <BR> <P> <SPAN class="pogr">PROFESSIONAL EXPERIANCE</SPAN> <TABLE style="width: 1300px"> <TBODY> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px">03/2011 to present</TD> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"><SPAN class="pogr">Wroclaw University of Technology, Faculty of Chemistry, Division of Analytical Chemistry, Wroclaw, Poland</SPAN> <BR>Associate professor<BR></TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px"> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px">02/2011</TD> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"><SPAN class="pogr">LCABIE, CNRS UMR 5254, IPREM, Helioparc, Pau-Pyrenees, France</SPAN> <BR>Research associate (hospitality of Prof. R. Lobinski)<BR></TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px"> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px">10/2009 - 09/2010</TD> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"><SPAN class="pogr">LCABIE, CNRS UMR 5254, IPREM, Helioparc, Pau-Pyrenees, France</SPAN> <BR>Contractual research associate (hospitality of Prof. R. Lobinski)<BR></TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px"> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px">10/2006 - 09/2007</TD> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"><SPAN class="pogr">University of Hamburg, Department of Chemistry, Institute of Inorganic and Applied Chemistry, Hamburg, Germany</SPAN> <BR>Alexander von Humboldt Foundation research fellow (hospitality of Prof. J. A. C. Broekaert)<BR></TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px"> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px">04/2005 - 02/2011</TD> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"><SPAN class="pogr">Wroclaw University of Technology, Faculty of Chemistry, Division of Analytical Chemistry, Wroclaw, Poland</SPAN> <BR>Assistant professor<BR></TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px"> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px">10/2003 - 03/2005</TD> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"><SPAN class="pogr">Wroclaw University of Technology, Faculty of Chemistry, Institute of Inorganic Chemistry and Metallurgy of Rare Elements, Wroclaw, Poland</SPAN> <BR>Assistant professor<BR></TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px"> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px">10/2002 - 09/2003</TD> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"><SPAN class="pogr">Wroclaw University of Technology, Faculty of Chemistry, Institute of Inorganic Chemistry and Metallurgy of Rare Elements, Wroclaw, Poland</SPAN> <BR>Research-and-teaching assistant<BR></TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px"> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px">05/2000 - 08/2000</TD> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"><SPAN class="pogr">Laboratoire de Chimie Analytique, Bio-Inorganique et Environnement (LCABIE), CNRS UMR 5034, Universite de Pau et des Pays de l&#39;Adour, Pau, France</SPAN> <BR>Researcher<BR> (hospitality of Prof. R. Lobinski)</TD> </TR> <TR> <TD style="VERTICAL-ALIGN: top; WIDTH: 200px"> <TD style="VERTICAL-ALIGN: top; WIDTH: 1000px"> </TR> </TBODY> </TABLE> </P> <BR> <P> <SPAN class="pogr">EDUCATION</SPAN> <TABLE style="width: 1300px"> <TBODY> <TR> <TD style="vertical-align: top; width: 200px">10/1998 - 09/2002</TD> <TD style="vertical-align: top; width: 1000px"><SPAN class="pogr">Institute of Inorganic Chemistry and Metallurgy of Rare Elements, Wroclaw University of Technology, Wroclaw, Poland</SPAN> <BR>PhD in Chemistry with first class honours, specialisation: analytical chemistry and atomic spectrometry <BR>Thesis: Hyphenation of volatile species generation technique with the inductively coupled plasma atomic emission spectrometry - application to the determination of metals, non-metals and metalloids (in Polish)<BR></TD> </TR> <TR> <TD style="vertical-align: top; width: 200px"> <TD style="vertical-align: top; width: 1000px"> </TR> <TR> <TD style="vertical-align: top; width: 200px">10/1993 - 07/1998</TD> <TD style="vertical-align: top; width: 1000px"><SPAN class="pogr">Faculty of Chemistry, Wroclaw University of Technology, Wroclaw, Poland</SPAN> <BR>MSc in Chemistry with first class honours, specialisation: analytical chemistry <BR>Thesis: Determination of hydride forming elements by the inductively coupled plasma atomic emission spectrometry (in Polish)<BR></TD> </TR> <TR> <TD style="vertical-align: top; width: 200px"> <TD style="vertical-align: top; width: 1000px"> </TR> </TBODY> </TABLE> </P> <BR> <P> <SPAN class="pogr">PROFESSIONAL ACTIVITY</SPAN> <BR>- Member of <a href="http://www.rsc.org/publishing/journals/ja/staff.asp">Advisory Board</a> of <em>Journal of Analytical Atomic Spectrometry</em> <BR>- Expert reviewer for <EM>United States National Science Foundation</EM> <BR>- Article reviewer (275 manuscripts since 2004) for <EM>Analyst</EM>, <EM>Analytical Chemistry</EM>, <EM>Analytica Chimica Acta</EM>, <EM>Analytical Letters</EM>, <EM>Analytical Methods</EM>, <EM>Analytical Sciences</EM>, <EM>Apidiologie</EM>, <EM>Brazilian Journal of Chemical Society</EM>, <EM>Canadian Journal of Analytical Sciences and Spectroscopy</EM>, <EM>Chinese Journal of Chemistry</EM>, <EM>Chemical Analysis (Warsaw)</EM>, <EM>Chemical Communications</EM>, <EM>Desalination and Water Treatment</EM>, <EM>Environmental Engineering and Management</EM>, <EM>Food Additives and Contaminants</EM>, <EM>Food Analytical Methods</EM>, <EM>Food Chemistry</EM>, <EM>Food and Chemical Toxycology</EM>, <EM>Food Control</EM>, <EM>Fuel Processing Technology</EM>, <EM>International Journal of Environmental Analytical Chemistry</EM>, <EM>International Journal Research Journal of Geology and Mining</em>, <EM>Journal of Agricultural and Food Chemistry</EM>, <EM>Journal of Analytical Atomic Spectrometry</EM>, <EM>Journal of Chemical and Engineering Data</EM>, <EM>Journal of Chromatography A</EM>, <EM> Journal of Environmental Management</EM>, <EM>Journal of Environmental Monitoring</EM>, <EM>Journal of Food Analysis and Composition</EM>, <EM>Journal of Food and Nutritional Research</EM>, <EM>Journal of Hazardous Materials</EM>, <EM>Journal of Pharmaceutical and Biomedical Analysis</EM>, <EM>Microchimica Acta</EM>, <EM>Separation Science and Technology</EM>, <EM>Spectrochimica Acta Part B</EM>, <EM>Spectroscopy Letters</EM>, and <EM>Talanta</EM><BR> </P> <BR> <P> <SPAN class="pogr">AWARDS AND SCHOLARSHIPS</SPAN> <BR>- Award of Rector of Wroclaw University of Technology for outstanding contribution to scientific activity in 2011 <BR>- Award of Rector of Wroclaw University of Technology for outstanding contribution to scientific activity in 2008 <BR>- Return Fellowship of Alexander von Humboldt Foundation in 2007 <BR>- Research Fellowship of Alexander von Humboldt Foundation in 2006 <BR>- Distinction of Rector of Wroclaw University of Technology for outstanding contribution to scientific activity in 2004 <BR>- Felloship for young scientists of Foundation for Polish Science in 2004 <BR>- Award of Rector of Wroclaw University of Technology for PhD thesis in 2003 <BR>- Awards of Rector of Wroclaw University of Technology and Dean of Chemistry Department for academic and research achievements during the whole studies in 1998 <BR>- Polish Ministry of Education Scholarship in 1995 and 1997 for very high academic and research achievements <BR>- Awards of Dean of Chemistry Department of Wroclaw University of Technology for academic records in 1995 and 1997 <BR>- Awards of Rector of Wroclaw University of Technology for academic achievements in 1994 and 1996 </P> <BR> <P> <SPAN class="pogr">SCIENTIFIC INTERESTS</SPAN> <BR>- Advances in hyphenation of chromatographic separation and pre-concentration techniques (LC, HPLC, CE, SPE) with spectrometric methods of detection (ICP-AES, ICP-MS, F-AAS, ET-AAS, MS/MS) for speciation and fractionation analysis of metals and metalloids in environmental samples, food and beverages <BR>- Development and application in chemical vapour generation technique (CVG) for analytical atomic and mass spectrometry </P> <BR> <P><SPAN class="pogr">PUBLICATIONS</SPAN> (according to the Web of Science <span id='badgeCont527377' style='width:26px'><script src='http://labs.researcherid.com/mashlets?el=badgeCont527377&mashlet=badge&showTitle=false&className=a&rid=H-5570-2011&size=small'></script></span> 69 documents cited more than 840 times, h index 16 <BR>85. M. Welna, A. Szymczycha-Madeja, E. Stelmach, <SPAN class="podkr">P. Pohl</SPAN>, <EM>Speciation and fractionation of elements in tea infusions</em>, Critical Reviews in Analytical Chemistry, under review<BR> <BR>84. <SPAN class="podkr">P. Pohl</SPAN>, H. Stecka, K. Greda, P. Jamroz, <EM>Determination of the polyphenolic fraction of Ca, Fe, Mg and Zn in dark color honeys using solid phase extraction and flame atomic absorption spectrometry</EM>, International Food Research, under review<BR> <BR>83. <SPAN class="podkr">P. Pohl</SPAN>, H. Stecka, K. Greda, P. Jamroz, <EM>Bio-availability of Ca, Cu, Fe, Mg and Zn from commercial bee honeys</EM>, Food Chemistry, under review<BR> <BR>82. <SPAN class="podkr">P. Pohl</SPAN>, H. Stecka, P. Jamroz, <EM>Pre-concentration by solid phase extraction and two-step elution prior to interference-free determination of total concentrations of traces of copper in freshly ripened honeys by flame atomic absorption spectrometry</EM>, Food Chemistry, under review<BR> <BR>81. R. Bou Khouzam, <span class="podkr">P. Pohl</span>, B. Al Ayoubi, F. Jaber, R. Lobinski, <em>Concentrations of toxic and essential elements in Lebanese cheese</em>, Food Additives and Contaminants, under review<br> <BR>80. <SPAN class="podkr">P. Pohl</SPAN>, H. Stecka, P. Jamroz, <EM>Fast and interference free determination of calcium and magnesium in honeys by solid phase extraction followed by flame atomic absorption spectrometry</EM>, Journal of Brazilian Chemical Society, in press<BR> <BR>79. M. Welna, A. Szymczycha-Madeja, <SPAN class="podkr">P. Pohl</SPAN>, <EM>Different aspects of the elemental analysis of tea (Camellia sinensis) and their infusions by spectrometric methods. A review</em>, Trends in Analytical Chemistry, in press<BR> <BR>78. <span class="podkr">P. Pohl</span>, I. Sergiel, H. Stecka, P. Jamroz, <em>Different aspects of the elemental analysis of honey by flame atomic absorption and emission spectrometry. A review</em>, Food Analytical Methods, in press<br> <br>77. <BR>78. R. Bou Khouzam, <span class="podkr">P. Pohl</span>, B. Al Ayoubi, F. Jaber, R. Lobinski, <em>Concentrations of toxic and essential elements in Lebanese bread</em>, Pure and Applied Chemistry, 2012, <span class="pogr">84</span>(2), 181<br> <BR>76. <SPAN class="podkr">P. Pohl</SPAN>, I. Sergiel, <EM>Direct analysis of dark honeys for total content of copper and its fractionation forms</EM>, Food Analytical Methods, 2012, <span class="pogr">5</span>(1), 113<BR> <BR>75. <SPAN class="podkr">P. Pohl</SPAN>, H. Stecka, P. Jamroz, <EM>Suitability of solid phase extraction and sequential elution for pre-concentration of traces of Mn and Zn and their separation from easily ionized interfering elements in analysis of honey by flame atomic absorption spectrometry</EM>, Analytical Methods, 2012, <span class="pogr">4</span>(1), 125<BR> <BR>74. <SPAN class="podkr">P. Pohl</SPAN>, H. Stecka, P. Jamroz, <EM>Application of ion-exchangers in speciation and fractionation of elements in food and beverages</EM>, In: I. Siddiqui, M. Luqman (Eds.), <EM>Ion-exchange Technology I: Theory and Materials</EM>, Springer Verlag, 2012, chapter 10<BR> <BR>73. <SPAN class="podkr">P. Pohl</SPAN>, H. Stecka, P. Jamroz, <EM>Solid phase extraction with flame atomic absorption spectrometry for determination of traces of Ca, K, Mg and Na in quality control of white sugar</EM>, Food Chemistry, 2012, <span class="pogr">130</span>(2), 441<BR> <BR>72. M. Welna, A. Szymczych-Madeja, <SPAN class="podkr">P. Pohl</span>, <EM>Quality of the trace element analysis: sample preparation steps</EM>, In: I. Akyar Rijeka (Ed.), <em>Wide Spectra of Quality Control</em>, Intech Open Access Publisher, 2011, pages 53-70<BR> <BR>71. <SPAN class="podkr">P. Pohl</SPAN>, I. Sergiel, <EM>Direct determination of the total concentrations of calcium, iron, magnesium and manganese in addition to their chemical and physical fraction in dark honeys by means of flame atomic absorption spectrometry with solid phase extraction and ultrafiltration</EM>, Analytical Letters, 2011, <span class="pogr">44</span>(13), 2265<BR> <BR>70. R. Bou Khouzam, <span class="podkr">P. Pohl</span>, R. Lobinski, <EM>Bioaccessibility of essential elements from white cheese, bread, fruit and vegetables</em>, Talanta, 2011, <span class="pogr">86</span>(1), 425<br> <BR>69. R. Bou Khouzam, R. Lobinski, <span class="podkr">P. Pohl</span>, <em>Multi-element analysis of bread, cheese, fruit and vegetables by double-focusing sector-field inductively coupled plasma mass spectrometry</em>, Analytical Methods, 2011, <span class="pogr">3</span>(9), 2115<BR><br> <BR>68. <SPAN class="podkr">P. Pohl</SPAN>, H. Stecka, <EM>Elemental composition of white refined sugar by instrumental methods of analysis</EM>, Critical Reviews in Analytical Chemistry, 2011, <span class="pogr">41</span>(2), 100<BR> <BR>67. <SPAN class="podkr">P. Pohl</SPAN>, P. Jamroz, <EM>Recent achievements in chemical hydride generation inductively coupled and microwave induced plasmas with optical emission spectrometry detection</EM>, Journal of Analytical Atomic Spectrometry, 2011, <span class="pogr">26</span>(7), 1317<BR> <BR>66. H. Stecka, <SPAN class="podkr">P. Pohl</SPAN>, <EM>Pre-concentration of lithium prior to its determination in honey by means of flame optical emission spectrometry</EM>, Journal of Brazilian Chemical Society, 2011, <span class="pogr">22</span>(4), 677<BR> <BR>65. N. Vorapalawut, <SPAN class="podkr">P. Pohl</SPAN>, B. Bouyssiere, R. Lobinski, <EM>Multielement analysis of petroleum samples by laser ablation double focusing sector field inductively coupled plasma mass spectrometry (LA-ICP MS)</EM>, Journal of Analytical Atomic Spectrometry, 2011, <span class="pogr">26</span>(3), 618<BR> <BR>64. <SPAN class="podkr">P. Pohl</SPAN>, I. Sergiel, B. Prusisz, <EM>Direct analysis of honey for the total content of Zn and its fractionation forms by means of flame atomic absorption spectrometry with solid phase extraction and ultrafiltration approaches</EM>, Food Chemistry, 2011, <span class="pogr">125</span>(4), 1504<BR> <BR>63. L. R. V. Mataveli, <SPAN class="podkr">P. Pohl</SPAN>, S. Mounicou, M. A. Z. Arruda, J. Szpunar, <EM>A comparative study of element concentrations and binding in non-transgenic and transgenic soybean seeds</EM>, Metallomics, 2010, <span class="pogr">2</span>(12), 800<BR> <BR>62. <SPAN class="podkr">P. Pohl</SPAN>, J. Dural, N. Vorapalawut, B. Bouyssiere, R. Lobinski, <EM>Multielement molecular size fractionation in crude oil and oil residue by gel permeation microchromatography with high resolution inductively coupled plasma mass spectrometric detection (HR ICP MS)</EM>, Journal of Analytical Atomic Spectrometry, 2010, <span class="pogr">25</span>(12), 1974<BR> <BR>61. <SPAN class="podkr">P. Pohl</SPAN>, R.E. Sturgeon, <EM>Simultaneous determination of hydride and non-hydride forming elements by inductively coupled plasma optical emission spectrometry - 30 years of innovations</EM>, Trends in Analytical Chemistry, 2010, <span class="pogr">29</span>(11), 1376<BR> <BR>60. <SPAN class="podkr">P. Pohl</SPAN>, N. Vorapalawut, B. Bouyssiere, R. Lobinski, <EM>Trace-level determination and insight in speciation of silicon in petrochemical samples by flow-injection high resolution ICP MS and HPLC-high resolution ICP MS</EM>, Journal of Analytical Atomic Spectrometry, 2010, <span class="pogr">25</span>(8), 1461<BR> <BR>59. <SPAN class="podkr">P. Pohl</SPAN>, J. A. C. Broekaert, <EM>Spectroscopic and analytical characteristics of an argon inductively coupled plasma coupled to hydride generation only and of an argon inductively coupled plasma coupled to hydride generation with simultaneous introduction of the sample aerosol for optical emission spectrometry</EM>, Analytical and Bioanalytical Chemistry, 2010, <span class="pogr">398</span>(1), 537<BR> <BR>58. I. Sergiel, <SPAN class="podkr">P. Pohl</SPAN>, <EM>Determination of the total content of calcium and magnesium and their bioavailability in ripened bee honeys</EM>, Journal of Agricultural and Food Chemistry, 2010, <span class="pogr">58</span>(13), 7497<BR> <BR>57. <SPAN class="podkr">P. Pohl</SPAN>, N. Vorapalawut, B. Bouyssiere, H. Carrierd, R. Lobinski, <EM>Direct multi-element analysis of crude oils and gas condensates by double-focusing sector field inductively coupled plasma mass spectrometry (ICP MS)</EM>, Journal of Analytical Spectrometry, 2010, <span class="pogr">25</span>(5), 704<BR> <BR>56. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Chemical fractionation of Cu, Fe and Mn in canned Polish beers</EM>, Journal of Food Composition and Analysis, 2010, <span class="pogr">23</span>(1), 86<BR> <BR>55. <SPAN class="podkr">P. Pohl</SPAN>, I. Sergiel, <EM>Direct determination of the total concentrations of copper, iron and manganese and their fractionation forms in freshly ripened honeys by means of flame atomic absorption spectrometry</EM>, Microchimica Acta, 2010, <span class="pogr">168</span>(1-2), 9<BR> <BR>54. <SPAN class="podkr">P. Pohl</SPAN>, I. Sergiel, <EM>Evaluation of the total content and the operationally defined species of copper in beers and wines</EM>, Journal of Agricultural and Food Chemistry, 2009, <SPAN class="POGR">57</SPAN>(20), 9378<BR> <BR>53. <SPAN class="podkr">P. Pohl</SPAN>, I. Sergiel, H. Stecka, <EM>Determination and fractionation of metals in honey</EM>, Critical Reviews in Analytical Chemistry, 2009, <SPAN class="POGR">39</SPAN>(4), 276<BR> <BR>52. <SPAN class="podkr">P. Pohl</SPAN>, <EM>Suitability of solid phase extraction and flame atomic absorption spectrometry for manganese partitioning in red wines</EM>, Food Chemistry, 2009, <SPAN class="POGR">114</SPAN>(3), 996<BR> <BR>51. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Application of tandem column solid phase extraction and flame atomic absorption spectrometry for the determination of inorganic and organically bound forms of iron in wine</EM>, Talanta, 2009, <SPAN class="POGR">77</SPAN>(5), 1732<BR> <BR>50. <SPAN class="podkr">P. Pohl</SPAN>, <EM>Determination of metal content in honey by atomic absorption and emission spectrometries</EM>, Trends in Analytical Chemistry, 2009, <SPAN class="POGR">29</SPAN>(1), 117<BR> <BR>49. <SPAN class="podkr">P. Pohl</SPAN>, <EM>Metals in beer</EM>, In: V. R. Preedy (Ed.), <EM>Beer in Health and Disease Prevention</EM>, Academic Press (Elsevier), 2008, chapter 33, pages 349-358<BR> <BR>48. B. Prusisz, <SPAN class="podkr">P. Pohl</SPAN>, <EM>Removal of organic macromolecules with ion exchange resins prior to the ion chromatographic analysis of taurine in infant formula and milk</EM>, Microchimica Acta, 2008, <SPAN class="POGR">162</SPAN>(1-2), 167<BR> <BR>47. M. A. Amberger, N. H. Bings, <SPAN class="podkr">P. Pohl</SPAN>, J. A. C. Broekaert, <EM>Investigation of electrochemical hydride generation coupled to microwave plasma torch optical emission spectrometry for the determination of arsenic: analytical figures of merit, interference studies and applications to environmentally relevant samples</EM>, Journal of Environmental Analytical Chemistry, 2008, <SPAN class="POGR">88</SPAN>(9), 625<BR> <BR>46. <SPAN class="podkr">P. Pohl</SPAN>, <EM>Determination and fractionation of metals in beer - a review</EM>, Food Additives and Contaminants, 2008, <SPAN class="pogr">25</SPAN>(6), 693<BR> <BR>45. <SPAN class="podkr">P. Pohl</SPAN>, I. Jimenez Zapata, E. Voges, N. H. Bings, J. A. C. Broekaert, <EM>Comparison of the cold vapor generation using NaBH<SUB>4</SUB> and SnCl<SUB>2</SUB> as reducing agents and atomic emission spectrometry for the determination of Hg with a microstrip microwave induced argon plasma exiting from the wafer</EM>, Microchimica Acta, 2008, <SPAN class="pogr">161</SPAN>(1-2), 175<BR> <BR>44. B. Prusisz, K. Mulica, <SPAN class="podkr">P. Pohl</SPAN>, <EM>Ion exchange and ion exclusion chromatographic characterization of wines using conductivity detection</EM>, Journal of Food and Drug Analysis, 2008, <SPAN class="pogr">16</SPAN>(2), 95<BR> <BR>43. <SPAN class="podkr">P. Pohl</SPAN>, I. Jimenez Zapata, M. A. Amberger, N. H. Bings, J. A. C. Broekaert, <EM>Characterization of an improved microwave microstrip helium plasma with gas-phase sample introduction for the optical emission spectrometric determination of bromine, chlorine and sulfur using a miniaturized optical fiber spectrometer</EM>, Spectrochimica Acta Part B, 2008, <SPAN class="pogr">63</SPAN>(3), 415<BR> <BR>42. <SPAN class="podkr">P. Pohl</SPAN>, I. Jimenez Zapata, N. H. Bings, <EM>Optimization and comparison of chemical and electrochemical hydride generation for optical emission spectrometric determination of arsenic and antimony using a novel miniaturized microwave induced argon plasma exiting the microstrip wafer</EM>, Analytica Chimica Acta, 2008, <SPAN class="pogr">606</SPAN>(1), 9<BR> <BR>41. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Fractionation of calcium, iron, magnesium and zinc in bee honeys by means of tandem column ion exchange and flame atomic absorption spectrometry</EM>, Canadian Journal of Analytical Sciences and Spectroscopy, 2007, <SPAN class="pogr">52</SPAN>(4), 207<BR> <BR>40. <SPAN class="podkr">P. Pohl</SPAN>, <EM>What do metals tell us about wine?</EM>, Trends in Analytical Chemistry, 2007, <SPAN class="pogr">26</SPAN>(9), 941<BR> <BR>39. <SPAN class="podkr">P. Pohl</SPAN>, <EM>Fractionation analysis of metals in dietary samples using ion-exchange and adsorbing resins</EM>, Trends in Analytical Chemistry, 2007, <SPAN class="pogr">26</SPAN>(7), 713<BR> <BR>38. <SPAN class="podkr">P. Pohl</SPAN>, <EM>Manganese and zinc operational fractionation in beer by means of tandem ion exchange column assemblage and flame atomic absorption spectrometry</EM>, Microchimica Acta, 2007, <SPAN class="pogr">159</SPAN>(3-4), 325<BR> <BR>37. I. Jimenez Zapata, <SPAN class="podkr">P. Pohl</SPAN>, N. H. Bings, J. A. C. Broekaert, <EM>Evaluation and application of argon and helium microstrip plasma for the determination of mercury by the cold vapor technique and optical emission spectrometry</EM>, Analytical and Bioanalytical Chemistry, 2007, <SPAN class="pogr">388</SPAN>(8), 1615<BR> <BR>36. <SPAN class="podkr">P. Pohl</SPAN>, I. Jimenez Zapata, N. H. Bings, E. Voges, J. A. C. Broekaert, <EM>Optical emission spectrometric determination of arsenic and antimony by continuous flow chemical hydride generation and a miniaturized microwave microstrip argon plasma operated inside a capillary channel in a sapphire wafer</EM>, Spectrochimica Acta Part B, 2007, <SPAN class="pogr">62</SPAN>(5), 444<BR> <BR>35. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Chemical vapor generation of noble metals for analytical spectrometry</EM>, Analytical and Bioanalytical Chemistry, 2007, <SPAN class="pogr">388</SPAN>(4), 753<BR> <BR>34. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Fractionation analysis of manganese and zinc in beers by means of two sorbent column system and flame atomic absorption spectrometry</EM>, Talanta, 2007, <SPAN class="pogr">71</SPAN>(4), 1616<BR> <BR>33. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Fractionation analysis of manganese and zinc in tea infusions by two-column solid phase extraction and flame atomic absorption spectrometry</EM>, Food Chemistry, 2007, <SPAN class="pogr">102</SPAN>(4), 1415<BR> <BR>32. B. Prusisz, K. Grymuza, <SPAN class="podkr">P. Pohl</SPAN>, <EM>Interferences elimination in ion chromatography by inclusion of the interfering ion into the mobile phase - analysis of fluoride in chloride rich dietary samples</EM>, Talanta, 2007, <SPAN class="pogr">71</SPAN>(3), 1364<BR> <BR>31. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Determination of Ca, Mg, Fe and Zn partitioning in UHT cow milks by two-column ion exchange and flame atomic absorption spectrometry detection</EM>, Talanta, 2007, <SPAN class="pogr">71</SPAN>(2), 715<BR> <BR>30. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Simple and versatile operational fractionation of Fe and Zn in dietary products by solid phase extraction on ion exchange resins</EM>, Talanta, 2007, <SPAN class="pogr">71</SPAN>(1), 411<BR> <BR>29. B. Prusisz, L. Jaskiewicz, <SPAN class="podkr">P. Pohl</SPAN>, <EM>High performance ion chromatography assessment of inorganic and organic nitrogen fractions in potatoes</EM>, Microchimica Acta, 2006, <SPAN class="pogr">156</SPAN>(3-4), 219<BR> <BR>28. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Iron red-ox speciation in waters by resin-based column chromatography</EM>, Trends in Analytical Chemistry, 2006, <SPAN class="pogr">25</SPAN>(9), 909<BR> <BR>27. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Fractionation of calcium and magnesium in honeys, juices and tea infusions by ion exchange and flame atomic absorption spectrometry</EM>, Talanta, 2006, <SPAN class="pogr">69</SPAN>(5), 1227<BR> <BR>26. B. Prusisz, <SPAN class="podkr">P. Pohl</SPAN>, <EM>Determination of selected anions and cations in wood samples by high performance ion chromatography after single preparation step</EM>, Chemical Analysis (Warsaw), 2006, <SPAN class="pogr">51</SPAN>(2), 267<BR> <BR>25. <SPAN class="podkr">P. Pohl</SPAN>, <EM>Application of ion exchange resins for fractionation of metals in water</EM>, Trends in Analytical Chemistry, 2006, <SPAN class="pogr">25</SPAN>(1), 31<BR> <BR>24. <SPAN class="podkr">P. Pohl</SPAN>, M. Jarosz, J. Szpunar, R. Lobinski, <EM>Hyphenathed techniques in speciation analysis</EM>, In: M. Jarosz (Ed.), <EM>Modern techniques of analysis</EM>, PWN, Warsaw 2006, chapter 5 (in Polish)<BR> <BR>23. <SPAN class="podkr">P. Pohl</SPAN>, Z. Bogdal, B. Prusisz, <EM>Preconcentration and fractionation of Cd, Co, Cu, Ni, Pb and Zn in natural water samples prior to the analysis by the inductively coupled plasma atomic emission spectrometry</EM>, Microchimica Acta, 2005, <SPAN class="pogr">150</SPAN>(3-4), 253<BR> <BR>22. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, W. Zyrnicki, <EM>Application of Metalfix Chelamine prior to the determination of noble metals by the inductively coupled plasma atomic emission spectrometry</EM>, Talanta, 2005, <SPAN class="pogr">67</SPAN>(1), 155<BR> <BR>21. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>On the applicability of Duolite GT-73 to column preconcentration of gold and palladium prior to the determination by the inductively coupled plasma atomic emission spectrometry</EM>, Microchimica Acta, 2005, <SPAN class="pogr">150</SPAN>(2), 159<BR> <BR>20. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Pre-concentration of mercury using Duolite GT-73 in the analysis of water samples by the inductively coupled plasma atomic emission spectrometry</EM>, Analytical Sciences, 2004, <SPAN class="pogr">20</SPAN>(9), 1367<BR> <BR>19. <SPAN class="podkr">P. Pohl</SPAN>, <EM>Hydride generation - recent advances in atomic emission spectrometry</EM>, Trends in Analytical Chemistry, 2004, <SPAN class="pogr">23</SPAN>(2), 87<BR> <BR>18. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Ion-exchange column chromatography - an attempt to speciate arsenic</EM>, Trends in Analytical Chemistry, 2004, <SPAN class="pogr">23</SPAN>(1), 63<BR> <BR>17. <SPAN class="podkr">P. Pohl</SPAN>, <EM>Recent advance in chemical vapour generation through the reaction with sodium tetrahydroborate</EM>, Trends in Analytical Chemistry, 2004, <SPAN class="pogr">23</SPAN>(1), 21<BR> <BR>16. <SPAN class="podkr">P. Pohl</SPAN>, B. Prusisz, <EM>Pre-concentration of Cd, Co, Cu, Ni and Zn using different off-line ion exchange procedures followed by the inductively coupled plasma atomic emission spectrometric detection</EM>, Analytica Chimica Acta, 2004, <SPAN class="pogr">502</SPAN>(1), 83<BR> <BR>15. <SPAN class="podkr">P. Pohl</SPAN>, A. Lesniewicz, W. Zyrnicki, <EM>Determination of As, Bi, Sb and Sn in conifer needles from various locations in Poland and Norway by hydride generation inductively coupled plasma atomic emission spectrometry</EM>, International Journal of Environmental Analytical Chemistry, 2003, <SPAN class="pogr">83</SPAN>(11), 963<BR> <BR>14. <SPAN class="podkr">P. Pohl</SPAN>, W. Zyrnicki, <EM>Analytical features of Au, Pd and Pt chemical vapour generation inductively coupled plasma atomic emission spectrometry</EM>, Journal of Analytical Atomic Spectrometry, 2003, <SPAN class="pogr">18</SPAN>(7), 798<BR> <BR>13. <SPAN class="podkr">P. Pohl</SPAN>, W. Zyrnicki, <EM>Study of chemical and spectral interferences in the simultaneous determination of As, Bi, Sb, Se and Sn by hydride generation inductively coupled plasma atomic emission spectrometry</EM>, Analytica Chimica Acta, 2002, <SPAN class="pogr">468</SPAN>(1), 71<BR> <BR>12. <SPAN class="podkr">P. Pohl</SPAN>, W. Zyrnicki, <EM>Study of the reaction of Ir, Os, Rh and Ru ions with NaBH<SUB>4</SUB> in the acid medium by the inductively coupled plasma atomic emission spectrometry</EM>, Journal of Analytical Atomic Spectrometry, 2002, <SPAN class="pogr">17</SPAN>(7), 746<BR> <BR>11. S. McSheehy, <SPAN class="podkr">P. Pohl</SPAN>, D. Velez Pacios, J. Szpunar, <EM>Multidimensional liquid chromatography with parallel ICP-MS and electrospray MS/MS detection as a tool for the characterization of arsenic species in algae</EM>, Analytical and Bioanalytical Chemistry, 2002, <SPAN class="pogr">372</SPAN>(3), 457<BR> <BR>10. <SPAN class="podkr">P. Pohl</SPAN>, J. Szpunar, <EM>Speciation analysis of pharmaceuticals enriched in selenium</EM>, Analityka, 2002, <SPAN class="pogr">2</SPAN>, 4 (in Polish)<BR> <BR>9. <SPAN class="podkr">P. Pohl</SPAN>, W. Zyrnicki, <EM>Study of chemical vapour generation of Au, Pd and Pt by inductively coupled plasma atomic emission spectrometry</EM>, Journal of Analytical Atomic Spectrometry, 2001, <SPAN class="pogr">16</SPAN>(12), 1442<BR> <BR>8. S. McSheehy, <SPAN class="podkr">P. Pohl</SPAN>, R. Lobinski, J. Szpunar, <EM>Investigation of arsenic speciation in oyster test reference material by multidimensional HPLC-ICP-MS and electrospray tandem mass spectrometry (ES-MS-MS)</EM>, The Analyst, 2001, <SPAN class="pogr">126</SPAN>(7), 1055<BR> <BR>7. <SPAN class="podkr">P. Pohl</SPAN>, W. Zyrnicki, <EM>On the transport of some metals into inductively coupled plasma during hydride generation process</EM>, Analytica Chimica Acta, 2001, <SPAN class="pogr">429</SPAN>(1), 135<BR> <BR>6. S. McSheehy, <SPAN class="podkr">P. Pohl</SPAN>, J. Szpunar, M. Potin-Gautier, R. Lobinski, <EM>Analysis for selenium speciation in selenized yeast extracts by two-dimensional liquid chromatography with ICP-MS and electrospray MS-MS detection</EM>, Journal of Analytical Atomic Spectrometry, 2001, <SPAN class="pogr">16</SPAN>(1), 68<BR> <BR>5. S. McSheehy, <SPAN class="podkr">P. Pohl</SPAN>, R. Lobinski, J. Szpunar, <EM>Complementarity of multidimensional HPLC-ICP-MS and electrospray MS-MS for speciation analysis of arsenic in algae</EM>, Analytica Chimica Acta, 2001, <SPAN class="pogr">440</SPAN>(1), 3<BR> <BR>4. <SPAN class="podkr">P. Pohl</SPAN>, J. Szpunar, <EM>Hyphenated techniques in the speciation analysis. Part II</EM>, Laboratoria Aparatura Badania, 2001, <SPAN class="pogr">6</SPAN>(5), 10 (in Polish)<BR> <BR>3. <SPAN class="podkr">P. Pohl</SPAN>, J. Szpunar, <EM>Hyphenated techniques in the speciation analysis. Part I</EM>, Laboratoria Aparatura Badania, 2001, <SPAN class="pogr">6</SPAN>(4), 13 (in Polish)<BR> <BR>2. <SPAN class="podkr">P. Pohl</SPAN>, J. Szpunar, <EM>Arsenic in seafood. Speciation analysis by HPLC-ICP-MS and ESI-MS/MS methods</EM>, Analityka, 2001, <SPAN class="pogr">2</SPAN>, 16 (in Polish)<BR> <BR>1. <SPAN class="podkr">P. Pohl</SPAN>, W. Zyrnicki, <EM>Simultaneous determination of As, Bi, Se and Sn and non-hydride forming elements by HG-ICP-AES without liquid phase separation</EM>, Chemical Analysis (Warsaw), 2000, <SPAN class="pogr">45</SPAN>(5), 699 </P> <BR> </DIV> </body> </html>