| Mo 1 | Sergio José Abellán Martín | Deep eutectic solvents as green extractant phase for the elemental analysis of edible oils by microwave plasma atomic emission spectrometry |
| Mo 2 | Anda Abola | Stability of low temperature plasma radiation in high frequency electrodeless light sources |
| Mo 3 | Żaneta Arciszewska | Determination of lanthanides in food samples by ICP-MS after their initial preconcentration on functionalized mesoporous silica materials |
| Mo 4 | Bruna Moreira Freire | Comparison of Se nanoparticles and selenite effects on As, Pb and Se uptake and accumulation rice seedlings |
| Mo 5 | Lukas Brunnbauer | Characterization of the corrosion behavior of copper in sulfur-containing environments using LA-ICP-MS and LIBS |
| Mo 6 | Katrin Loeschner | Determination of Aluminium in Food by ICP-MS: Influence of Microwave Digestion Parameters on the Recovery |
| Mo 7 | Michail Ioannis Chronakis | MDG-ICP-tof-MS: A Versatile Tool for Quantification in the field of Single Particle ICP-MS Using Isotopic Dilution |
| Mo 8 | Alfredo Diaz | ICP-MS determination of Rubidium, a useful technique as a water leaks tracer in drinking water systems |
| Mo 9 | Paula García Cancela | Evaluation of the use of selenium nanoparticles and selenized yeast extracts to treat cell ferroptosis using single cell strategies |
| Mo 10 | Beata Godlewska-Żyłkiewicz | Development of ICP-MS method for studies of gadolinium accumulation of in human cell lines |
| Mo 11 | Jonggu Han | Rotational, vibrational and excitation temperatures of low-pressure nitrogen plasma |
| Mo 12 | Jitka Hegrová | ICPMS/MS dteremination of Cr, Ni and Zn bioacumulation in cells of Green Alga Desmosesmus Subspicatus and their toxicity |
| Mo 13 | Uwe Karst | Single Cell- and Laser Ablation-Inductively Coupled Plasma-Mass Spectrometry Techniques for Studying the Uptake of Gadolinium Based Contrast Agents in Chlamydomonas reinhardtii Algae and Arabidopsis Thaliana |
| Mo 14 | Norbert Kavasi | Mass spectrometry methods for Sr-90 determination in environmental samples |
| Mo 15 | Markus Michaelis | How high-temperature microwave acid digestion can turbo-charge ICP-OES or ICP-MS analysis of heavy petroleum products |
| Mo 16 | Paraskevi Oikonomou | Detection of post-fire soil contamination using inductively coupled plasma-mass spectrometry (ICP-MS) in wildfire affected areas in Greece |
| Mo 17 | Silvana Oliveira | Development of a new ICP-tof-MS method for multielement quantification in single cells of snow algae |
| Mo 18 | Miguel Ángel Aguirre | A promising tool for elemental analysis — the role of multinebulizers |
| Mo 19 | Ágota Ragyák | The effect of Farnesol and Tyrosol treatment for the intracellular metal content of Candida auris |
| Mo 20 | Adam Revill | Evaluation of Indium and Tantalum Secondary Cathodes for Silicon Carbide Analysis Using the Nu Astrum GD-MS |
| Mo 21 | Vasiliy Rosen | Determination of total iodine using ICP-MS in Israeli bottled and tap water: method development and application |
| Mo 22 | Zsófi Sajtos | The elemental analysis if the mummies of Vác, Hungary |
| Mo 23 | Sandro Spiller | Application advantages of a hr-array icp-oes for the trace analysis of copper ore |
| Mo 24 | Chady Stephan | Direct analysis of trace elements in seawater using icp-ms with versatile reaction modes |
| Mo 25 | Ciprian Stremtan | Cryogenic cave carbonates by high resolution LA ICP TOF MS imaging – from understanding genesis to documenting ancient anthropogenic air pollution |
| Mo 26 | Ed Mccurdy | High Accuracy Standard Addition ICP-MS Analysis of Elemental Impurities in Electrolyte Salts Used for Lithium-Ion Batteries |
| Mo 27 | Mesay Wolle | Method Development for the Determination of Vitamin B12 in Infant Formulas |
| Mo 28 | Tristan Zimmermann | Elemental fingerprint analysis of (micro) plastics via ICP-MS/MS – A possible tool for source tracing? |
| Mo 29 | Katja Montan | In-Depth Analytics by High-Throughput ICP-MS |
| Mo 30 | Donata Bandoniene | Challenges in sample preparation of carbon-rich samples of natural, geogenic and technological origin |
| Mo 31 | Marcos Barrera Parrilla | Trends in Nebulization Strategies. Multiple Inlet Nebulizer. Multineb® |
| Mo 32 | Neri Bonciani | Elemental analysis of co-produced wastewater from the Danish chalk reservoirs: traces in a complex matrix |
| Mo 33 | Erica Cahoon | Improved Workflow and Throughput for Particle Counting and Wear Metals Analysis coupling ICP-OES with a Liquid Particle Counter |
| Mo 34 | Guillermo Grindlay | The acid matrix effects strike back: Evaluation of sulfur, phosphorus and chlorine influence on the analyte emission signal in inductively coupled plasma optical emission spectrometry |
| Mo 35 | Manuel Heinelt | Analysis of polycyclic aromatic hydrocarbons with surface-assisted flowing atmospheric-pressure afterglow mass spectrometry (SA-FAPA-MS) |
| Mo 36 | Björn Meermann | Deciphering microbiological influenced corrosion processes on steel with single cell-ICP-tof-MS |
| Mo 37 | Cristina Méndez-López | Spatial positioning of the re-excitation laser focusing spot in an orthogonal double pulse fs/ns-LIBS configuration |
| Mo 38 | Michael Petrich | Do We Still Have to Worry about Interferences in ICP-MS? |
| Mo 39 | Peio Riss | Innovative technologies in quadrupole ICP-MS for the determination of ultra-trace levels of As and Se |
| Mo 40 | Iouri Kalinitchenko | Plasma propagation through ICPMS interface. Multipin Langmuir Probe measurements of ion beam extraction |
| Mo 41 | Désirée Anna-Maria Schütz | Direct analysis of amino acids with surface-assisted flowing atmospheric-pressure afterglow mass spectrometry (SA-FAPA-MS) |
| Mo 42 | Isabel Abad Alvaro | Methodological platform for the analysis of microplastics in river waters based on single particle ICP-MS |
| Mo 43 | Nikolina Beljan | Characterization of iron nanoparticles in removal of selected rare earth elements by ICP-MS, AFM and SEM methods |
| Mo 44 | Mario Corte-Rodriguez | Using metal labels for the determination of nucleic acids (DNA and mirna) |
| Mo 45 | Carlos Gómez-Pertusa | Determination of metallic nanoparticles in soils by single particle ICP-MS after a microwave-assisted extraction treatment |
| Mo 46 | Sara Gonzalez Morales | Sp-icp-ms for the caracterization of engineered nanowires and nanorods of different metals |
| Mo 47 | Oksana Grebneva-Balyuk | The investigation of Au and fexoy nanoparticles in aqua-organic solutions by single particle sector field ICP-MS |
| Mo 48 | Nuria Guijarro-Ramírez | Characterization of biogenic selenium nanoparticles produced by Haloferax mediterranei using single particle ICP-MS |
| Mo 49 | Maria Sierra Jimenez | Detection of silver species in tissues and faeces from animals fed with silver-based nanomaterials by Laser Ablation-Single Particle-Inductively Coupled Plasma Mass Spectrometry |
| Mo 50 | Gyula Kajner | Single particle ICP-MS analysis using 3D-printed nebulizers and spray chambers |
| Mo 51 | Leonard Moriau | Electrochemical cell coupled with ICP-MS as a tool to measure online dissolution of electrocatalysts |
| Mo 52 | Iva Rezić | Microwave digestion and ICP-MS analysis of antimicrobially active microcapsules |
| Mo 53 | Jaromír Stráník | A new approach to determining the particle transport efficiency of ablation cells |
| Mo 54 | Meritxell Cabré | SP-ICP-MS analytical parameters for Au, Ag, SPIONs, CeO₂ and ZrO₂ nanoparticle characterization toward Nanotheranostics |
| Mo 55 | Paula Menero-Valdés | Determination of target proteins in immortalized and primary RPE cells by sc-ICP-MS using metal nanoclusters as labels |
| Mo 56 | Glenn Woods | Investigation of microplastic size and number changes during simulated UV-degradation using single particle ICP-MS/MS |
| Mo 57 | Tamara Fernández-Bautista | Identification of selenoneine and ergothioneine in highly consumed fish and fish-based products |
| Mo 58 | Aleksandra Izdebska | Analytical approaches to study the metabolism of different arsenic forms in Tilia cordata Mill |
| Mo 59 | Viktoria Müller | Measurement of gadolinium-based contrast agents in wastewater treatment plants. |
| Mo 60 | Marina Amaral Saraiva | Determination of the affinity of stripping molecules for Lanthanides (III) by HILIC coupled to ESI-MS and ICP-MS using isotope dilution |
| Mo 61 | Ana Alvarez-Barrios | Quantitative determination of Zn and metallothioneins in an inflammatory cell culture model by IDA/IPD-SEC-ICP-MS |
| Mo 62 | Elizabeth Leese | HBM4EU Study – Assessment of Occupational Exposure to Hexavalent Chromium |
| Mo 63 | Katarzyna Bierla | Simultaneous qualitative and quantitative HPLC-ICP MS and ESI MS assessment of selenium and sulfur metabolites in turkey liver |
| Mo 64 | Johan Annys | Determination of arsenic species in biological samples using IC-ICP-MS |
| Mo 65 | Jelle Verdonck | Speciation of Chromium using µlc-ICP-MS: Method development and validation |
| Mo 66 | Danuta Barałkiewicz | Multielemental speciation analysis of Cd2+, Pb2+ and (CH3)3Pb+ in herb roots by advanced hyphenated technique HPLC/ICP-DRC-MS |
| Mo 67 | Ronald Glabonjat | A method using HPLC-ICPMS/MS for simultaneous arsenic and selenium speciation analysis in large-scale epidemiological studies |
| Tu 1 | Anda Abola | Use of Zeeman AAS for mercury determination in black storks |
| Tu 2 | Silvana Oliveira | Cell-to-cell heterogeneous association of prostate cancer with gold nanoparticles elucidated by single-cell inductively coupled plasma mass spectrometry |
| Tu 3 | Lukas Brunnbauer | Characterization of microplastics using LA-ICP-MS and LIBS |
| Tu 4 | Cristian C. Escobar-Carranza | Direct Detection and Characterization of Microplastics by Flowing Atmospheric-Pressure Afterglow Mass Spectrometry (FAPA-MS) |
| Tu 5 | Lisa Fischer | Investigation of hydro chemical background concentrations of ground water discharges from rock glaciers in the Austrian alps |
| Tu 6 | Zuzana Gajdosehova | Evidence of metal particles in cannabis vape liquids and their implications on metal measurement reproducibility |
| Tu 7 | Marion Grange | Analysis of Sr-90 in milk by ICP-MS/MS: new development in sample introduction |
| Tu 8 | Aaron Haben | Method development for mini‐column sorption experiments using HPLC and ICP‐MS in the context of repository research |
| Tu 9 | Erica Cahoon | Using the nexion 5000 for Automated High Throughput Analysis of Rare Earth Elements in Large Batches of Mining Discovery Samples by LA-ICP-MS |
| Tu 10 | Sang Ho Nam | Classification of fermented soybean paste products by inductively-coupled plasma optical emission spectroscopy analysis |
| Tu 11 | Jackie Morton | Biomonitoring for respirable crystalline silica: the determination of Si-containing particles in exhaled breath condensate using single particle inductively coupled mass spectrometry |
| Tu 12 | Ivan Nemet | Elemental Profiling of Herbal Dietary Supplements by ICP-MS method: classification by multivariate statistical tools |
| Tu 13 | Rosario Pereiro | Stroke differential diagnosis in serum and nasal exudate by HPLC-ICP-MS and Fe isotopic composition via MC-ICP-MS |
| Tu 14 | Sukanya Sengupta | Assessing the purity grade of lithium carbonate and lithium hydroxide using ICP-OES and ICP-MS |
| Tu 15 | Chady Stephan | Strategies and approaches for particulate matter (pm) analysis in air |
| Tu 16 | Evangelia Xenogiannopoulou | Rapid classification of post-fire soil contamination by heavy metals (Pb, Cr, Zn) using Laser Induced Breakdown Spectroscopy (LIBS). |
| Tu 17 | Michaela Bahelková | Cadmium accumulation in organ tissues after inhalation of cadmium-based nanoparticles |
| Tu 18 | Lisa Balke | Libs-LIBS: A story about fluorine |
| Tu 19 | Stepan Chernonozhkin | 2D elemental mapping of micrometeorites via LA-ICP-tof-MS |
| Tu 20 | Markéta Holá | Sample structure and sample surface property as important parameters for LA-ICP-MS imaging |
| Tu 21 | Rob Hutchinson | Precognition - a new feature in iolite to improve imaging quality |
| Tu 22 | Ewelina Kowa | Imaging of coralline algae by LA-ICP-MS |
| Tu 23 | Ana Lores Padin | Quantitative study of neurodegeneration-related proteins at the single-cell level by LA-ICP-MS using specific gold-labelled immunoprobes and a fully matrix-matched calibration |
| Tu 24 | Gulnaz Mukhametzianova | Diffusive gradients in thin films (DGT) combined with LA-ICP-MS for elemental mapping of localised aluminium corrosion |
| Tu 25 | Paula Pongrac | Sodium accumulation and distribution in floral organs of tomato |
| Tu 26 | C Derrick Quarles Jr | Elemental distribution in shark teeth using high-speed LIBS-ICPMS imaging |
| Tu 27 | Fabien Chainet | Pb isotopic ratio determination in recycled plastic samples by MC-ICP/MS: An Analytical feasibility |
| Tu 28 | Jan Dobeš | Importance of Analyte-matrix Separation in U-Pb and Pb-Pb Dating Systems |
| Tu 29 | Alexander V. Epov | Development and validation of MC-ICP-MS based methods for Ni isotope analysis to study plant hyperaccumulation |
| Tu 30 | Ekaterina Epov | Isotopic fingerprints of «non-traditional» elements for authenticity and geographical assessments of food and beverages |
| Tu 31 | Majda Nikezić | Strontium isotope ratio as marker of wood provenance |
| Tu 32 | Adam Laycock | Pb isotope ratios to link environmental sources with high blood Pb concentrations in children in Georgia |
| Tu 33 | Dávid Jenő Palásti | Preparation and characterization of deuterated co-polymers as potential hydrogen isotope calibration standards for laser ablation-based spectroscopy |
| Tu 34 | Claudia Marchan Moreno | Stable isotope analysis as a critical tool on the advancement of mercury and selenium interaction in biota. New insights on mercury demethylation mechanism. |
| Tu 35 | Ulrike Moser | Comprehensive (geo)chemical characterization of the Austrian-Slovenian Mur/Mura River catchment |
| Tu 36 | Marcus Oelze | A second anchor Fe isotope reference material based on high purity Fe metal for the exhausted IRMM-014 |
| Tu 37 | Daniel Peters | Kr and polyatomic Ar interference removal for transition metals and Sr using the collision/reaction cell of the Nu Instruments Sapphire dual path MC-ICP-MS |
| Tu 38 | Philippe Telouk | Evaluation of the new MC-ICP-MS/MS Neoma. Is it the game changer ? |
| Tu 39 | Dariya Tukhmetova | On-line Species-specific Isotopic Analysis of Sulfur by Hyphenation of Capillary Electrophoresis with Multicollector-ICP-MS |
| Tu 40 | Niel Williams | In-situ Rb/Sr by LA-MC-ICP-MS/MS: Thermo Scientific Neoma MS/MS |
| Tu 41 | Tea Zuliani | Spatial resolution 87Sr/86Sr isotope ratio determination of cave bear teeth using LA-MC-ICP-MS |
| Tu 42 | Laëtitia Kasprzak | Analytical strategy and characterization of spent UO2-Gd2O3 nuclear fuel samples by mass spectrometry in the case of international laboratories intercomparison |
| Tu 43 | Lana Abou-Zeid | Evaluation of the affinity and selectivity of biomimetic peptides towards uranium by HILIC-ESI-MS/ICP-MS |
| Tu 44 | Viktoria Müller | Measurement of organofluorines in ski waxes with non-target HPLC-qtof-MS/ICP-MS |
| Tu 45 | Djaber Ghaffour | Development and validation of a novel method for Hg speciation analysis in food by HPLC-ICP-MS within the 3rd (French) Total Diet Study |
| Tu 46 | Mònica Iglesias-Juncà | Simple methods for the determination of Arsenic speciation by Hydride Generation and Plasma Atomic Emission Spectrometry |
| Tu 47 | Rui Santos | As species immobilization in the mining-contaminated soils using soil remediation |
| Tu 48 | Julita Malejko | Development of HPLC-ICP-MS method for the speciation analysis of nano and dissolved forms of silver in biological samples |
| Tu 49 | Katarina Marković | Copper speciation in human serum of hepatobiliary cancer patients by conjoint liquid chromatography and inductively coupled plasma mass spectrometry |
| Tu 50 | Andrea Raab | Lipophilic arsenic compounds in cultured Chlamydomas sp. Compared to Laminaria saccharina |
| Tu 51 | Laura Suárez Criado | Determination of methylmercury and inorganic mercury in human hair samples of individuals from colombia by id-gc-icp-ms |
| Tu 52 | Anastassiya Tchaikovsky | Ultra-trace analysis of (57Fe)transferrin in cell media using SEC-ICP-QMS |
| Tu 53 | Kerstin Vogel | A Comparison Revue of SEC/AF4-ICP-MS Hyphenation: Speciation and Quantitation of Polydimethylsiloxanes at Trace Levels |
| Tu 54 | Birgit Achleitner | In-situ study of temperature related changes in polymers using LIBS |
| Tu 55 | Cesar Alvarez Llamas | kHz LIBS-Imaging: Building the future of elemental imaging |
| Tu 56 | Dhinesh Asogan | Hyphenation of a high-speed laser ablation system to Quadrupole Inductively Coupled Plasma Mass Spectrometry (ICP-MS) for imaging applications |
| Tu 57 | Dieter Garbe-Schönberg | LA-ICP-OES for high-precision analysis of Sr/Ca paleo-seawater temperature proxy in corals |
| Tu 58 | Marijana Gavrilović Božović | Study of the beryllium spectral line shape using Laser Induced Breakdown Spectroscopy |
| Tu 59 | Satoshi Kondo | Direct metal analysis by new Galvano-mirror fs-LA-ICP-MS using 100%-normalization method with NIST612 glass CRM as calibration standard |
| Tu 60 | Natko Krajina | Laser ablation ICP-MS quantitative analysis of selected lanthanides adsorbed onto zero-valent iron nanoparticles |
| Tu 61 | Torsten Lindemann | Improving the Quantification of Carbon, Nitrogen and Oxygen with Fast Flow GD-MS |
| Tu 62 | Dávid Jenő Palásti | Nd:YAG vs. fiber lasers, or Laser induced breakdown spectroscopy with widely different pulse profiles and repetition rates |
| Tu 63 | Maximilian Podsednik | Depth-resolved analysis of technologically relevant materials by simultaneous LA-ICP-MS & LIBS measurements |
| Tu 64 | Ian Ridley | Laser Ablation Split Stream (LASS) Analysis in Economic Geology: Insights into Metallogenesis, Silesia-Cracow MVT District, Poland |
| Tu 65 | Jakob Willner | Implementation of a new heating stage for in-situ LIBS analysis of temperature induced processes |
| Tu 66 | Monika Ogrizek | Development of LA-ICPMS method for elemental characterization of PM samples and its application to ambient samples from Ljubljana |
| We 1 | Federica Bruschi | Determination of trace elements and Sr and Pb isotope ratios in Arctic resuspended soils by tandem ICP-MS and MC-ICP-MS |
| We 2 | Anna Ebeling | From offshore wind to green Power-to-X products – how ICP-MS can help to monitor potential emerging chemical emissions |
| We 3 | Esperanza Garcia-Ruiz | Fast extraction approaches for the multi-element analysis of dried matrix spots (dmss) via ICP-MS |
| We 4 | Lucía Gutiérrez-Romero | Nanodelivery systems for cisplatin: evaluation in complex cell systems like spheroids and organoids |
| We 5 | Petar Ivanov | Evaluation of Matrix Effects Using Different Plasma Views |
| We 6 | Ole Klein | Using ICP-MS/MS in complex environments - spatial distribution and possible sources of technology-critical elements |
| We 7 | Zofia Kowalewska | Low-temperature (flame) plasma as a thermochemical reactor for generation of monofluorides for fluorine determination using high-resolution molecular absorption spectrometry |
| We 8 | Beata Krasnodębska-Ostręga | Comparison of Rh determination by stripping voltammetry and ICP-MS - source of new information |
| We 9 | Daniel Kutscher | Rolling over interferences: How triple quadrupole ICP-MS facilitates the analysis of challenging samples for electric vehicles |
| We 10 | Yonghoon Lee | Aligning salt crystals along the pre-defined laser-ablation pathway to increase laser-ablation sampling efficiency for laser-induced breakdown spectroscopy analysis of edible salts |
| We 11 | Jaime Martínez-García | Identification of trace elements and biomolecules in extracellular vesicles secreted by human RPE cells by ICP-MS |
| We 12 | Ed Mccurdy | Authenticating Geographical Origin of Tea from the North-East Region of India Using ICP-MS and Agilent Mass Profiler Professional Chemometrics Software |
| We 13 | Carina Wolf | Laser induced breakdown spectroscopy (LIBS) - inductively coupled plasma - mass spectrometry (ICP-MS) for the investigation of tattoo pigments in ink and skin samples |
| We 14 | Majda Pavlin | Alkali activation of local slag by using various alternative activators: an environmental assessment of leachates |
| We 15 | Michael Petrich | Comparison of Detection Limits and Purity Analysis of Lithium Carbonate Powders Between ICP-OES, ICP-MS and ICP-MSMS Analysis Techniques. |
| We 16 | Ewa Pruszkowski | What Levels of Ultra-trace Elemental Detection Can Be Achieved Today? |
| We 17 | Joseph Ready | The Use of LA-ICP-MS and Related Techniques for the Analysis of Essential Elements in Plant Tissue |
| We 18 | Christine Rivera | Design and Performance Review of Innovative Microwave Inductively Coupled Atmospheric Plasma – Optical Emission Spectroscopy (MICAP™-OES 1000) Utilized in Mining and Mineral Exploration |
| We 19 | Sebastien Sannac | Elemental analysis of brine samples used for lithium extraction |
| We 20 | Thomas Vogt | Direct process accompanying analysis of biomass for critical elements in combusting processes with ETV-ICP-OES |
| We 21 | Dominik Wippermann | Potential of ICP-MS/MS to study the impact of trace metals released from offshore wind farm corrosion protection on marine biota. |
| We 22 | Elham Zeinijahromi | Quantification of Trace Metals in Drinking Water – Effect of Acid Digestion |
| We 23 | Julian Rüdiger | History and Outlook of (metal) pollutant measurements at the atmospheric background stations of the German Environment Agency Air Monitoring Network |
| We 24 | Ewa Bulska | Measuring fluorine in biological systems: from total content to fluoro-proteomics |
| We 25 | Helmut Ernstberger | How many quadrupoles are too many in ICP-MS/MS? |
| We 26 | Elke Fasch | Critical comparison of experimental and computational fluid dynamic results for a sample introduction system in plasma spectrometry |
| We 27 | Sandro Fazzolari | Coupling of a flow cytometer to the prototype ICP-TOFMS for single-cell analysis |
| We 28 | María Luisa Fernnandez-Sanchez | Potential of Mesenchymal Stem Cell Secretome of Human Uterine Cervix in Breast Cancer Therapy |
| We 29 | Elisabeth Foels | Fundamental studies to explore the potential of isotope dilution for LA-ICPMS imaging |
| We 30 | Guillermo Grindlay | Microwave-sustained inductively coupled atmospheric-pressure plasma for elemental analysis of environmental samples: Citius, Altius, Fortius |
| We 31 | Karel Novotný | Excitation of elements from water solutions in the free discharge tip and in the discharge tube of the plasma pencil |
| We 32 | Ágota Ragyák | The sweetest time capsules - The MP-AES analysis coupled with AMS age determination Hungarian acacia samples |
| We 33 | Zsófi Sajtos | The sweetest time capsules - The MP-AES analysis coupled with AMS age determination of Hungarian multifloral honey samples |
| We 34 | Michael Schober | Fostering inclusive access to analytical instrumentation |
| We 35 | Kharmen Billimoria | Potential of quantitative LA-ICP-tof-MS imaging to improve understanding of Wilson’s disease therapeutics |
| We 36 | Vincent Gardette | LIBS imaging for support diagnostic of pulmonary idiopathic disease |
| We 37 | Brian Jackson | LA-ICP-MS analysis of teeth: A comparison of discrete spot analysis using Q-ICP-MS and imaging analysis by ICPTOF |
| We 38 | Dylan Johnson | Quantitative multiplexed imaging of breast cancer biomarkers by immunohistochemistry-assisted LA-ICP-MS |
| We 39 | Stefan Marković | Bioimaging of Pt in mice tumours treated with cisplatin using LA-ICP-MS |
| We 40 | Claude Molitor | Statistical analysis of the distribution of the cell cycle phases of different cell cultures via LA-ICP-TOFMS |
| We 41 | Martin Rittner | Recent improvements in Mpx/hr LA-ICP-TOFMS mapping |
| We 42 | Marco Roman | Fast and high-resolution LA-ICP-MS imaging for improved characterization of speleothems as paleoclimate archives |
| We 43 | Martin Schaier | LA-ICP-TOFMS as a tool for exploring the mechanisms of chemoresistance in oxaliplatin-treated HCT116 tumors |
| We 44 | Birgit Achleitner | A 3D approach to visualize ion diffusion in polymers using LA-ICP-MS and LIBS |
| We 45 | Fernando Casian | Nanoparticle-enhanced discrimination analysis of polymers and microplastics by laser induced breakdown and Raman spectroscopy |
| We 46 | Laura Kronlachner | Liquid standard addition calibration for laser ablation inductively coupled plasma optical emission spectrometry |
| We 47 | Miroslav Kuzmanović | Semi-quantitative LIBS analysis of austenitic steel using the intensity ratio of spectral lines |
| We 48 | Maximilian Podsednik | Time-resolved investigation of copper scaling at different temperatures by in-situ LIBS measurements |
| We 49 | C Derrick Quarles Jr | High-Speed Imaging with LIBS-ICPMS |
| We 50 | Flavio V. Nakadi | Tandem LIBS/LA-ICP-MS: an alternative tool for dried blood spots devices analysis |
| We 51 | Maximilian Weiss | Laser-induced breakdown spectroscopy as an universal platform for investigating proton conducting oxides |
| We 52 | Jakob Willner | Investigation of metal diffusion into polymer films by measurement of quantitative LA-ICP-MS depth profiles |
| We 53 | Alexander Winckelmann | Investigation of degradation of the aluminum current collector in lithium-ion batteries by glow-discharge optical emission spectroscopy |
| We 54 | Benjamin Wasilewski | Parametric analysis on GDMS measurement: investigation of source conditions and material properties |
| We 55 | Isabel Abad Alvaro | Understanding the synergic bactericidal activity of silver-based nanomaterials/antibiotics by using Single Cell-ICP-MS |
| We 56 | Isabel Bastardo Fernandez | Development of a novel method based on single particle icp-ms/ms and a high sensitivity sample introduction (apex) system for the characterization of titanium dioxyde nanoparticles in food simulants |
| We 57 | Magdalena Borowska | Probing mercury detoxification potential of biogenic selenium nanoparticles using spectrometric techniques |
| We 58 | Raquel Gonzalez de Vega | Application of single particle and single cell ICP-MS for the characterisation of microplastics and unicellular algae via carbon analysis |
| We 59 | Agnes Hagege | Taylor dispersion analysis and ICP-MS hyphenation for size determination of ultrasmall metal-containing nanoparticles in biological media |
| We 60 | Lyndsey Hendriks | Asserting the icptof’s place in the analytical toolbox for nanoparticle analysis through an interlaboratory comparison study |
| We 61 | Adam Laycock | Development of a new Guidance Document on the determination of concentrations of nanoparticles in biological samples for (eco)toxicity studies – A systematic review of single particle ICP-MS |
| We 62 | Meritxell Cabré | Clinical diluent effect on gold nanoparticle characterization for Nanotheranostics applications |
| We 63 | Riansares Muñoz-Olivas | Combination of proteomics and imaging plasma spectrometry methodologies to elucidate the size dependent toxicological effects of agnps in zebrafish larvae |
| We 64 | Rosa Rodríguez Martín-Doimeadios | EAF4-ICP-TQ-MS as a potential powerful tool for the study of metallic nanoparticles |
| We 65 | Alejandro Rodríguez-penedo | Palladium nanoclusters as label to determine GFAP in biological fluids by bimodal detection: ICP-MS & cyclic voltammetry |
| We 66 | Lukas Schlatt | Nanoparticle identification using single particle ICP-tof-MS acquisition coupled to cluster analysis. From engineered to natural nanoparticles |
| We 67 | Andrés Suárez Priede | Characterizing and evaluating the antibacterial activity of biogenic senps produced by edible mushrooms |
| We 68 | Glenn Woods | Investigation on Accumulation Patterns of three Pt-based Drugs in Cisplatin–Sensitive and –Resistant Cell Models using single cell ICP-MS |
| Th 1 | Sarah-Marie Alam El Din | Development of a biomarker of early toxicity from electronic cigarette metal exposure using single-cell ICP-MS |
| Th 2 | Violina Angelova | Comparison of direct mercury analyzer and ICP-OES for the analysis of mercury in environmental samples |
| Th 3 | Anna Telk | Determination of boron in skin cancer cells by ICP-MS technique |
| Th 4 | Sandra Barhoum | Synthesis and characterization of capillary based-monolithic supports to study interactions of actinides with biological material |
| Th 5 | Toralf Beitz | Laser-induced breakdown spectroscopy for proximal soil sensing in precision agriculture |
| Th 6 | Mario Corte-Rodriguez | Study of the use of a new multi-purpose nebulizer in multiple conditions: from total elemental analysis to single-cell ICP-MS with one nebulizer. |
| Th 7 | Beatriz Gómez Gómez | Uptake of selenium species in neuroblastoma cell lines related to Alzheimer´s disease by using single-cell-ICP-MS. |
| Th 8 | Peter Keresztes Schmidt | Laser ablation ionization mass spectrometry on the lunar surface |
| Th 9 | Satoshi Kondo | Particle Analysis of Two High Purity Grades of N-Methyl-2-Pyrrolidone (NMP) using a Single Particle (sp)ICP-MS/MS Method |
| Th 10 | Beata Krasnodębska-Ostręga | On-site separation of arsenic species using a sorbent C18 modified with APDC - ICP-MS determination |
| Th 11 | Michaela Kuchynka | Elements and proteins imaging by la-icp-ms: medical and pharmaceutical research |
| Th 12 | Pia Leban | Extending the capabilities of single particle ICP-MS for the detection of small microplastics in environmental water samples |
| Th 13 | Barbara Lesniewska | Determination of selected elements in model biological fluids by ICP-MS/MS |
| Th 14 | Uwe Noetzel | Determination of Heavy Metals and Nutrient Elements in Alternative Proteins Using ICP-MS |
| Th 15 | Thomas Prohaska | Characterization of technologically produced carbon applied in agriculture |
| Th 16 | Ewa Pruszkowski | Totalquant Technique - More than Semi-Quantitative Analysis |
| Th 17 | Sebastien Sannac | Determination of Elemental Nutrients and Micronutrients in Functional Food by ICP-OES |
| Th 18 | Sukanya Sengupta | Accurate and Reliable Analysis of Food Samples using ICP-MS |
| Th 19 | Sandro Spiller | Trace analysis of light naphtha samples using hr-array icp-oes |
| Th 20 | Joshua Stone | LIBS-ICP-MS: An emerging technique for geologic imaging of traditionally challenging elements |
| Th 21 | Daniel Torregrosa | Determination of SARS-cov-2 proteins by means bioassays based on ICP-MS detection |
| Th 22 | Alan Vieira | Closed-vessel thermally convective wet digestion: a reliable sample preparation approach for trace analysis |
| Th 23 | Christoph Walkner | Active and passive tracing of non-metallic inclusions in steel using rare earth elements |
| Th 24 | Fanny Claverie | In situ U-Pb carbonate dating by fs-LA-ICP-MS imaging combined with a virtual spot approach data treatment. |
| Th 25 | David Douglas | A novel combination of ICP-TOF-MS beam attenuation and encoder laser triggering to map elements between 100% and sub-ppm levels at high repetition rates |
| Th 26 | Damon Green | Proving the capabilities of Laser Ablation ICP-TOF-MS data at speeds up to 1 kHz |
| Th 27 | David Loibnegger | LA-ICP-TOFMS imaging reveals spatial distribution of platinum compounds in mouse organs and tumor tissue at the single cell level |
| Th 28 | Joshua Millar | Multimodal mass spectrometry imaging of key biomarkers to study age-related macular degeneration |
| Th 29 | Olga Minaeva | LA-ICP-MS as a new tool for neuroscience research |
| Th 30 | Lukas Schlatt | Fast, high-resolution full elemental laser ablation imaging using time-of-flight ICP-MS for endogenous metal analysis and label identification in biological samples |
| Th 31 | Ciprian Stremtan | Chemical heterogeneities documented in Iron Age glass artefacts from the Dacian fortress of Ardeu (Hunedoara County, Romania) – the case for using LA ICP MS elemental imaging |
| Th 32 | Vilém Svojanovský | Single particle inductively coupled plasma mass spectrometry imaging of immunochemically labeled spheroid sections |
| Th 33 | Stijn J. M. Van Malderen | Advances in batch image calibration and phase segmentation |
| Th 34 | Markéta Vejvodová | Recognition of proteins using metal-based nanoparticles |
| Th 35 | Kristina Mervič | Influence of laser fluence and beam size on aerosol formation and effect on precision in LA-ICP-MS analysis |
| Th 36 | Dino Metarapi | Hexagonal sampling – a free upgrade in LA-ICP-MS imaging resolution? |
| Th 37 | Lana Abou-Zeid | High-precision Selenium isotopic analysis: a novel approach for diagnosing/prognosing neurological disorders? |
| Th 38 | Marta Aranaz Fernández | Study of the protective role of Zn in an in vitro cell culture subjected to pro-inflammatory conditions |
| Th 39 | Francisco Ardini | Expanding the capabilities of a single-quadrupole ICP-MS for lead and strontium isotopic analysis of polar samples |
| Th 40 | Julien Barre, pres. Sylvain Berrail | Development of a new analytical strategy to determine the Hg isotopic composition in gold materials |
| Th 41 | Dominik Božič |
Mercury isotope measurement method in samples with low mercury concentration using MC-ICP-MS |
| Th 42 | Ewa Bulska | Hight precison measurements of lead isotope ratio |
| Th 43 | Jan Dobeš | Dating of Geological Samples using Uranium-lead and Lead-lead Dating Systems |
| Th 44 | Tjaša Goltnik | Use of lead isotope composition for source tracing of air particulate matter from upper Meža Valley |
| Th 45 | Johanna Irrgeher | Elemental and isotopic analysis of dust for authentication of historic manuscripts |
| Th 46 | Marta Marina Latorre | Development of methodologies for isotopic analysis by (MC)-ICP-MS in ocular low volume samples |
| Th 47 | Rui Santos | Boron isotope ratio measurements with a Q-ICP-MS in seawater samples |
| Th 48 | Peio Riss | Boron Isotope Ratios in Champagne Wine as a Tracer of Authenticity using a Quadrupole ICP-MS |
| Th 49 | Katerina Rodiouchkina | Determination of sulfur isotope ratios in biological and geological reference materials |
| Th 50 | Fred Smith | Antimony Isotope Ratio Measurements Using a Desolvating Nebulizer System with Multicollector ICP-MS Detection: A Study with an Atlantic Ocean Mn Nodule |
| Th 51 | Jochen Vogl | Interlaboratory comparison on conventional ⁸⁷Sr/⁸⁶Sr isotope ratio analysis by applying MC-ICP-MS and MC-TIMS |
| Th 52 | Chung-Che Wu, pres. Bodo Hattendorf | Highly sensitive 238U–234U–232Th–230Th dating approach using LA-ICPMS |
| Th 53 | Dávid Jenő Palásti | Preparation and characterization of deuterated co-polymers as potential hydrogen isotope calibration standards for laser ablation-based spectroscopy |
| Th 54 | Camilla Kafino | Strontium Isotopes Applied as Provenance Proxy for Brazilian Woods |
| Th 55 | Dhinesh Asogan | Assessing the level and distribution of trace element distributions in individual cells using single cell ICP-MS analysis |
| Th 56 | Kai Fukuchi | Effect of gas species and flow rate on desolvation in droplet sample injection ICP- MS for single cell analysis |
| Th 57 | Stephan Hann | Elemental speciation analysis and molecular mass spectrometry for investigation of metal homeostasis in allergic subjects |
| Th 58 | Daniel Kutscher | Intracellular elemental content of CHO cells in batch versus fed-batch conditions |
| Th 59 | Sandra Mounicou | Fate and impact of iodinated contrast media in exposed aquatic organisms - a metallomic approach |
| Th 60 | Georgia Panagou | Metallobiomolecule profiling in gilthead seabream and European seabass blood serum by online SEC – ICP – MS |
| Th 61 | David Price | Can Single Cell ICP-MS improve our understanding of the role of iron on our immune system? |
| Th 62 | Kaj Sullivan | Meta-analysis of blood serum Zn stable isotope compositions from healthy subjects using individual participant data |
| Th 63 | Oksana Grebneva-Balyuk | Spectral interferences as the reason of signals "amplification" on trace concentration of elements determination by ICP-AES |
| Th 64 | Jong Wha Lee | Uncertainty evaluation in double isotope dilution inductively coupled plasma mass spectrometry |
| Th 65 | Johanna Noireaux | Improving valuable metals recycling: quantifying Technology Critical Elements in the urban mine |
| Th 66 | Sophie Page | A Novel Isotope Dilution ICP-MS Approach for Validating Mercury Gas Generators |
| Th 67 | Ben Russell | Harmonisation of measurement of environmental pollutants in Europe: Introduction to a European Metrology Project |
| Th 68 | Adam Sajnóg | Applying chemometric tools to search for relationships between elements in herb roots determined by ICP-MS |