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Elemental characterization of Al nanoparticles buried under a Cu thin film - TOF-SIMS vs. STEM/EDX
Priebe, A., Barnes, J. P., Edwards, T. E. J., Huszár, E., Pethö, L., & Michler, J. (2020). Elemental characterization of Al nanoparticles buried under a Cu thin film - TOF-SIMS vs. STEM/EDX. Analytical Chemistry. https://doi.org/10.1021/acs.analchem.0c02361
Fluorine gas coinjection as a solution for enhancing spatial resolution of time-of-flight secondary ion mass spectrometry and separating mass interference
Priebe, A., Pethö, L., & Michler, J. (2020). Fluorine gas coinjection as a solution for enhancing spatial resolution of time-of-flight secondary ion mass spectrometry and separating mass interference. Analytical Chemistry, 92(2), 2121-2129. https://doi.org/10.1021/acs.analchem.9b04647
Hair analysis: contamination versus incorporation from the circulatory system — investigations on single hair samples using time-of-flight secondary ion mass spectrometry and matrix-assisted laser desorption/ionization mass spectrometry
Erne, R., Bernard, L., Steuer, A. E., Baumgartner, M. R., & Kraemer, T. (2019). Hair analysis: contamination versus incorporation from the circulatory system — investigations on single hair samples using time-of-flight secondary ion mass spectrometry and matrix-assisted laser desorption/ionization mass spectrometry. Analytical Chemistry, 91(6), 4132-4139. https://doi.org/10.1021/acs.analchem.8b05866
3D imaging of nanoparticles in an inorganic matrix using TOF-SIMS validated with STEM and EDX
Priebe, A., Barnes, J. P., Edwards, T. E. J., Pethö, L., Balogh, I., & Michler, J. (2019). 3D imaging of nanoparticles in an inorganic matrix using TOF-SIMS validated with STEM and EDX. Analytical Chemistry, 91(18), 11834-11839. https://doi.org/10.1021/acs.analchem.9b02545
Application of a gas-injection system during the FIB-TOF-SIMS analysis — Influence of water vapor and fluorine gas on secondary ion signals and sputtering rates
Priebe, A., Utke, I., Pethö, L., & Michler, J. (2019). Application of a gas-injection system during the FIB-TOF-SIMS analysis — Influence of water vapor and fluorine gas on secondary ion signals and sputtering rates. Analytical Chemistry, 91(18), 11712-11722. https://doi.org/10.1021/acs.analchem.9b02287
Depth-profiling microanalysis of CoNCN water-oxidation catalyst using a <i>λ</i> = 46.9 nm plasma laser for nano-ionization mass spectrometry
Müller, R., Kuznetsov, I., Arbelo, Y., Trottmann, M., Menoni, C. S., Rocca, J. J., … Bleiner, D. (2018). Depth-profiling microanalysis of CoNCN water-oxidation catalyst using a λ = 46.9 nm plasma laser for nano-ionization mass spectrometry. Analytical Chemistry, 90(15), 9234-9240. https://doi.org/10.1021/acs.analchem.8b01740
Single-cell mass spectrometry of metabolites extracted from live cells by fluidic force microscopy
Guillaume-Gentil, O., Rey, T., Kiefer, P., Ibáñez, A. J., Steinhoff, R., Brönnimann, R., … Vorholt, J. A. (2017). Single-cell mass spectrometry of metabolites extracted from live cells by fluidic force microscopy. Analytical Chemistry, 89(9), 5017-5023. https://doi.org/10.1021/acs.analchem.7b00367
Deconvolution of mass spectral interferences of chlorinated alkanes and their thermal degradation products: chlorinated alkenes
Schinkel, L., Lehner, S., Heeb, N. V., Lienemann, P., McNeill, K., & Bogdal, C. (2017). Deconvolution of mass spectral interferences of chlorinated alkanes and their thermal degradation products: chlorinated alkenes. Analytical Chemistry, 89(11), 5923-5931. https://doi.org/10.1021/acs.analchem.7b00331
Highly selective volatile organic compounds breath analysis using a broadly-tunable vertical-external-cavity surface-emitting laser
Tuzson, B., Jágerská, J., Looser, H., Graf, M., Felder, F., Fill, M., … Emmenegger, L. (2017). Highly selective volatile organic compounds breath analysis using a broadly-tunable vertical-external-cavity surface-emitting laser. Analytical Chemistry, 89, 6377-6383. https://doi.org/10.1021/acs.analchem.6b04511
Fast quantification of chlorinated paraffins in environmental samples by direct injection high-resolution mass spectrometry with pattern deconvolution
Bogdal, C., Alsberg, T., Diefenbacher, P. S., MacLeod, M., & Berger, U. (2015). Fast quantification of chlorinated paraffins in environmental samples by direct injection high-resolution mass spectrometry with pattern deconvolution. Analytical Chemistry, 87(5), 2852-2860. https://doi.org/10.1021/ac504444d
Development of a spectroscopic technique for continuous online monitoring of oxygen and site-specific nitrogen isotopic composition of atmospheric nitrous oxide
Harris, E., Nelson, D. D., Olszewski, W., Zahniser, M., Potter, K. E., McManus, B. J., … Ono, S. (2014). Development of a spectroscopic technique for continuous online monitoring of oxygen and site-specific nitrogen isotopic composition of atmospheric nitrous oxide. Analytical Chemistry, 86(3), 1726-1734. https://doi.org/10.1021/ac403606u
High-resolution droplet-based fractionation of nano-LC separations onto microarrays for MALDI-MS analysis
Küster, S. K., Pabst, M., Jefimovs, K., Zenobi, R., & Dittrich, P. S. (2014). High-resolution droplet-based fractionation of nano-LC separations onto microarrays for MALDI-MS analysis. Analytical Chemistry, 86(10), 4848-4855. https://doi.org/10.1021/ac4041982
Mass quantification of nanoparticles by single droplet calibration using inductively coupled plasma mass spectrometry
Gschwind, S., Hagendorfer, H., Frick, D. A., & Günther, D. (2013). Mass quantification of nanoparticles by single droplet calibration using inductively coupled plasma mass spectrometry. Analytical Chemistry, 85(12), 5875-5883. https://doi.org/10.1021/ac400608c
Interfacing droplet microfluidics with matrix-assisted laser desorption/ionization mass spectrometry: label-free content analysis of single droplets
Küster, S. K., Fagerer, S. R., Verboket, P. E., Eyer, K., Jefimovs, K., Zenobi, R., & Dittrich, P. S. (2013). Interfacing droplet microfluidics with matrix-assisted laser desorption/ionization mass spectrometry: label-free content analysis of single droplets. Analytical Chemistry, 85(3), 1285-1289. https://doi.org/10.1021/ac3033189
Self-aliquoting microarray plates for accurate quantitative matrix-assisted laser desorption/ionization mass spectrometry
Pabst, M., Fagerer, S. R., Köhling, R., Küster, S. K., Steinhoff, R., Badertscher, M., … Zenobi, R. (2013). Self-aliquoting microarray plates for accurate quantitative matrix-assisted laser desorption/ionization mass spectrometry. Analytical Chemistry, 85(20), 9771-9776. https://doi.org/10.1021/ac4021775
Fast chemical imaging at high spatial resolution by laser ablation inductively coupled plasma mass spectrometry
Wang, H. A. O., Grolimund, D., Giesen, C., Borca, C. N., Shaw-Stewart, J. R. H., Bodenmiller, B., & Günther, D. (2013). Fast chemical imaging at high spatial resolution by laser ablation inductively coupled plasma mass spectrometry. Analytical Chemistry, 85(21), 10107-10116. https://doi.org/10.1021/ac400996x
Characterization of silver nanoparticle products using asymmetric flow field flow fractionation with a multidetector approach ― a comparison to transmission electron microscopy and batch dynamic light scattering
Hagendorfer, H., Kaegi, R., Parlinska, M., Sinnet, B., Ludwig, C., & Ulrich, A. (2012). Characterization of silver nanoparticle products using asymmetric flow field flow fractionation with a multidetector approach ― a comparison to transmission electron microscopy and batch dynamic light scattering. Analytical Chemistry, 84(6), 2678-2685. https://doi.org/10.1021/ac202641d
Dynamic, electronically switchable surfaces for membrane protein microarrays
Tang, C. S., Dusseiller, M., Makohliso, S., Heuschkel, M., Sharma, S., Keller, B., & Vörös, J. (2006). Dynamic, electronically switchable surfaces for membrane protein microarrays. Analytical Chemistry, 78(3), 711-717. https://doi.org/10.1021/ac051244a
Determination of nitrated phenolic compounds in rain by liquid chromatography/atmospheric pressure chemical ionization mass spectrometry
Kohler, M., & Heeb, N. V. (2003). Determination of nitrated phenolic compounds in rain by liquid chromatography/atmospheric pressure chemical ionization mass spectrometry. Analytical Chemistry, 75(13), 3115-3121. https://doi.org/10.1021/ac0264067
Argentometric titration for the determination of liquid chromatographic injection reproducibility
Kehl, K. G., & Meyer, V. R. (2001). Argentometric titration for the determination of liquid chromatographic injection reproducibility. Analytical Chemistry, 73(1), 131-133. https://doi.org/10.1021/ac000666b