Day 1 // 9th June 2020 // FOOD
Food Analysis is challenging due to the complexity of sample matrices in combination with a high variety of analytes which are present at range of levels.
Traditionally, laboratories are forced to employ using high numbers of GC instruments with both different target analyte methods and different column types to generate sufficient data to accurately detect and quantify important species such as pesticides, dioxins and mineral oils for regulatory and discovery purposes which results in high investments and lower than ideal sample throughput. Compromises have had to be made using quadrupole MS detectors, because the number of target analytes which can be analysed over a restricted mass range at sufficient sensitivity is limited, thereby increasing the number of instruments required. Non-targeted screening applications have also been significantly restricted by the same limitations.
During the last decade, due to the huge advancements made in computer power, it is now possible to use Time-Of-Flight (TOF) mass spectrometry (MS) easily, routinely and powerfully to perform such applications. The use of TOF-MS technology provides much more than an equivalent solution to these applications as they operate with high data acquisition rates, over wide mass ranges with high sensitivity. Due to these capabilities, complex analyte-matrix coelutions can be resolved quickly and efficiently using either 1D separations or comprehensive 2D separations (GC×GC) in conjunction with powerful deconvolution. By using these approaches, multiple classifications of analytes can be analysed using fewer instruments and fewer runs in less time. Furthermore, target analyses and be performed at the same time as non-target screening.
Day 2 // 11th June 2020 // ENVIRONMENTAL
The environment we live in provides everything needed for life to flourish, from the energy, food, water needed for basic existence to the raw materials which drive our industry and the development of our civilisation. However, it is this very development which in turn creates a revolving equilibrium during which everything we do in our society impacts the environment and then back upon ourselves and our health. The understanding of this Human-Environment equilibrium is vital as we strive towards a goal of living sustainable and healthy lives. Therefore, measuring the impacts of the use of chemicals like pesticides in farming, oil for the production of countless materials or emissions and waste generation created by combustion of fuel etc is a highly important analytical need.Analysis of the thousands of chemicals present in our air, land and water supplies is highly complex and therefore time consuming and experimentally challenging.
LECO’s state of the art GC, GC×GC, TOF-MS & HR-TOF-MS technology allows better than ever before ways to detect and quantify complex mixtures of chemicals found in water, in soil and in the air we breathe in our cities and countryside. By using Leco`s industry leading TOF-MS capability, it is possible to reduce run times, simultaneously analyse multiple compound classifications and enhance separations in dirty matrices with comprehensive GC×GC.
Day 1 Food
INTRODUCTIONHow to Push the Boundaries of your Food Analysis Applications using LECO GC-TOF-MS and GCxGC-TOF-MS Technologies
Jürgen Wendt / Nick Jones
GC×GC-ToFMS/FID: A Journey Beyond the MOSH&MOAH Hump in Food Determination
Giorgia Purcaro (University of Liège, Belgium)
Dioxin Measurements in Food and Feed Beyond MRL Regulation Using GC×GC-TOFMS
Jean-François Focant (University of Liège, Belgium)
Application of Two-dimensional Gas Chromatography with Mass Spectrometric Detection for Analysis of Pesticide Residues in Foodstuffs
Radim Štěpán (Czech Agriculture and Food Inspection Authority (CAFIA), Prague, Czech Republic)
Day 2: Environmental
Environmental Analysis – Using State of the Art GC, GCxGC, TOF-MS & HR-TOF-MS Technology to Resolve, Detect and Understand the Impacts of Civilisation on the Environment and Human HealthNick Jones / Jürgen Wendt (LECO, Berlin, Germany)
Exhaustive Characterization of Pyrogenic Environmental Samples using GC×GC‒ToF MS
Lourdes Ramos, (IQOG-CSIC Madrid, Spain)
Approaches to Trace Level Analysis of Contaminants in Complex Matrix Water Applications: A Comparison of 1D GCMS & 2D GC-TOF-MS — Selectivity, Sensitivity & Throughput
David Benanou (Veolia, France)
Characterization of Organic Components on the Particulate Matter of Aerosols by GC- and GCxGC-TOFMS for the Evaluation of its Impact to Health and the Environment
Thomas Gröger (Helmholtz Institute, Munich)