Prof. Dr. Daniel Matthias Meier

Persönliches Profil

Leitungsfunktion

Leitung Labor für Verfahrenstechnik

Tätigkeit an der ZHAW

Dozent für Verfahrenstechnik

www.zhaw.ch/de/engineering/institute-zentren/impe/laborbereiche/verfahrenstechnik/

Arbeits- und Forschungsschwerpunkte, Spezialkenntnisse

CO2 Capture and Use (CCU); Heterogene Katalyse; Entwicklung kontinuierlicher Verfahren 
Materialanalytik und online Prozessmonitoring; Stofftrennung; Umwandlung oder Anreicherung
Power-to-Liquid / Fuel Processing; Gas-, Abgas, Wasser-, Abwasseraufbereitung

Aus- und Fortbildung

Dipl. Chem. ETH Zürich
Dr. sc. ETH Zürich
CAS in Hochschuldidaktik Universität Zürich

Beruflicher Werdegang

2009-2011 Forschung und Entwicklung, Ozonia, Dübendorf
2011-2016 Lehrbeauftragter für Prozesstechnik, ZHAW, Winterthur
2011-2014 Applikationschemiker, Büchi Labortechnik AG, Flawil
2014-2017 Abteilungsleiter Labor, Büchi Labortechnik AG, Flawil

Mitglied in Netzwerken

SGVC, Swiss Process and Chemical Engineers

Projekte

• Impulse: New Constant Quality JunFunori® / Co-ProjektleiterIn / Projekt laufend
• IR-Zelle für die inline-Überwachung von Extraktionen mit überkritischem CO2 / ProjektleiterIn / Projekt laufend
• Entwicklung eines experimentbasierten Designtools für kontinuierliche Reaktoren / ProjektleiterIn / Projekt laufend
• In situ IR spectroscopic approach to elucidate reaction mechanisms of exhaust gas purification catalysts / Co-ProjektleiterIn / Projekt abgeschlossen
• Effiziente und nachhaltige Astaxanthinextraktion / ProjektleiterIn / Projekt abgeschlossen
• Herstellung und Applikation von neuartigen 3D gedruckten Keramikstrukturen für hocheffizienten Stoffaustausch in Trennkolonnen / ProjektleiterIn / Projekt abgeschlossen

Publikationen

• Hack, Jannis; Maeda, Nobutaka; Meier, Daniel M.,

  2022.

  Review on CO2 capture using amine-functionalized materials.

  ACS Omega.

  Verfügbar unter: https://doi.org/10.1021/acsomega.2c03385

• Steinemann, Finn Lorenz; Rütti, David Paul; Moser, Marlies; Georg, Alain; Meier, Daniel Matthias,

  2022.

  Simultaneous determination of enthalpy of mixing and reaction using milli-scale continuous flow calorimetry.

  Journal of Flow Chemistry.

  Verfügbar unter: https://doi.org/10.1007/s41981-022-00237-x

• Hack, Jannis; Frazzetto, Seraina; Evers, Leon; Maeda, Nobutaka; Meier, Daniel M.,

  2022.

  Branched versus linear structure : lowering the CO2 desorption temperature of polyethylenimine-functionalized silica adsorbents.

  Energies.

  15(3), S. 1075.

  Verfügbar unter: https://doi.org/10.3390/en15031075

• Moser, Marlies; Georg, Alain G.; Steinemann, Finn Lorenz; Meier, Daniel Matthias; Rütti, David,

  2021.

  Continuous milli-scale reaction calorimeter for direct scale-up of flow chemistry.

  Journal of Flow Chemistry.

  11(3), S. 691-699.

  Verfügbar unter: https://doi.org/10.1007/s41981-021-00204-y

• Gau, Alina; Hack, Jannis; Maeda, Nobutaka; Meier, Daniel Matthias,

  2021.

  Operando spectroscopic monitoring of active species in CO2 hydrogenation at elevated pressure and temperature : steady-state versus transient analysis.

  Energy & Fuels.

  Verfügbar unter: https://doi.org/10.1021/acs.energyfuels.1c02592

• Wang, Xianwei; Maeda, Nobutaka; Meier, Daniel Matthias,

  2021.

  Synergistic effects of bimetallic AuPd and La2O3 in the catalytic reduction of NO with CO.

  Catalysts.

  11(8), S. 916.

  Verfügbar unter: https://doi.org/10.3390/catal11080916

• Rütti, David; Moser, Marlies; Georg, Alain G.; Spier, Eyal S.; Meier, Daniel Matthias,

  2021.

  Kinetic data for continuous processes from liquid‐liquid loop reactor experiments.

  Chemie Ingenieur Technik.

  93(8), S. 1267-1272.

  Verfügbar unter: https://doi.org/10.1002/cite.202100005

• Weisshar, Florian; Gau, Alina; Hack, Jannis; Maeda, Nobutaka; Meier, Daniel Matthias,

  2021.

  Toward carbon dioxide capture from the atmosphere : lowering the regeneration temperature of polyethylenimine-based adsorbents by ionic liquid.

  Energy & Fuels.

  35(10), S. 9059-9062.

  Verfügbar unter: https://doi.org/10.1021/acs.energyfuels.1c00392

• Wang, Xianwei; Maeda, Nobutaka; Meier, Daniel Matthias; Baiker, Alfons,

  2021.

  Bimetallic AuPd@CeO2 nanoparticles supported on potassium titanate nanobelts : a highly efficient catalyst for the reduction of NO with CO.

  Catalysis Letters.

  151(9), S. 2483-2491.

  Verfügbar unter: https://doi.org/10.1007/s10562-020-03502-7

• Waheed, Ammara; Wang, Xianwei; Maeda, Nobutaka; Meier, Daniel Matthias; Ishida, Tamao; Murayama, Toru; Haruta, Masatake; Baiker, Alfons,

  2021.

  Influence of the support in aqueous phase oxidation of ethanol on gold/metal oxide catalysts studied by ATR-IR spectroscopy under working conditions.

  Catalysis Communications.

  148(106183).

  Verfügbar unter: https://doi.org/10.1016/j.catcom.2020.106183

• Baiker, Alfons; Wang, Xianwei; Maeda, Nobutaka; Meier, Daniel Matthias,

  2020.

  Potassium titanate nanobelts : a unique support for Au and AuRh nanoparticles in the catalytic reduction of NO with CO.

  ChemCatChem.

  13(1), S. 438-444.

  Verfügbar unter: https://doi.org/10.1002/cctc.202001401

• Waheed, Ammara; Shi, Quanquan; Maeda, Nobutaka; Meier, Daniel Matthias; Qin, Zhaoxian; Li, Gao; Baiker, Alfons,

  2020.

  Strong activity enhancement of the photocatalytic degradation of an azo dye on Au/TiO2 doped with FeOx.

  Catalysts.

  10(8), S. 933.

  Verfügbar unter: https://doi.org/10.3390/catal10080933

• Ito, Shizuka; Wang, Xianwei; Waheed, Ammara; Li, Gao; Maeda, Nobutaka; Meier, Daniel Matthias; Naito, Shuichi; Baiker, Alfons,

  2020.

  Support effects in iridium-catalyzed aerobic oxidation of benzyl alcohol studied by modulation-excitation attenuated total reflection IR spectroscopy.

  Journal of Catalysis.

  393, S. 42-50.

  Verfügbar unter: https://doi.org/10.1016/j.jcat.2020.11.010

• 2021.

  Operando IR spectroscopic monitoring of active species in catalytic hydrogenation of CO2 to methanol at elevated pressure and temperature [Paper].

  In:

  Materials Research Meeting, Yokohama, Japan, 13-16 December 2021.

• Meier, Daniel Matthias,

  2020.

  Identifying pure and applied JunFunori® : an algae-based consolidant [Paper].

  In:

  Acta Artis Academica 2019.

  7th interdisciplinary ALMA conference focused on research, technology, history and conservation/restoration of the fine art, Bratislava, Slovakia, 16-18 October 2019.

• Meier, Daniel Matthias,

  2020.

  Künftige Ingenieure absolvieren den Forschungszyklus : Prozessanalytik forschend erlernt [Poster].

  In:

  Abschlusskolloquium, Weiterbildung – CAS Hochschuldidaktik, Zürich, 12. Juni 2020.

• Jordi, Sara; Inauen, Jan; Blaser, Monika; Meier, Daniel Matthias,

  2019.

  Identifying JunFunori(R) consolidation material on paintings [Poster].

  In:

  7th Inderdisciplinary Alma Conference, Bratislava, Slovakia, October 16th-18th 2019.

  ZHAW Zürcher Hochschule für Angewandte Wissenschaften.

  Verfügbar unter: https://doi.org/10.21256/zhaw-19223

Publikationen vor Tätigkeit an der ZHAW

"Copper metal–organic framework: Structure and activity in the allylic oxidation of cyclohexene with molecular Oxygen", Dongmei Jiang, Tamas Mallat, Daniel M. Meier, Atsushi Urakawa, Alfons Baiker. J. Catal, 270, 1, Pages 26-33, 2010.

"Continuous catalytic oxidation of solid alcohols in supercritical CO2: A parametric and spectroscopic study of the transformation of cinnamyl alcohol over Pd/Al2O3", Matteo Caravati, Daniel M. Meier, Jan-Dierk Grunwaldt, Alfons Baiker. J. Catal, 240, 2, Pages 126–136, 2006.

"Conformational Behavior of Cinchonidine Revisited: A Combined Theoretical and Experimental Study"
Atsushi Urakawa, Daniel M. Meier, Heinz Rüegger, Alfons Baiker. J. Phys. Chem. A, 112 (31), Pages 7250–7255, 2008.

"In Situ PM-IRRAS Study of Liquid-Phase Benzyl Alcohol Oxidation on Palladium"
Daniel M. Meier, Atsushi Urakawa, Alfons Baiker. J. Phys. Chem. C, 113 (52), Pages 21849–21855, 2009.

"Molecular insight into the dynamics of chiral modification of Pt/alumina"
Daniel M. Meier, Davide Ferri, Tamas Mallat, Alfons Baiker. J. Catal., 248, 1, Pages 68-76, 2007.

"Adsorption behavior of salicylic, benzoic, and 2-methyl-2-hexenoic acid on alumina: an in situ modulation excitation PM-IRRAS study"
Daniel M. Meier , Atsushi Urakawa, Alfons Baiker. Phys. Chem. Chem. Phys., 11, Pages 10132-10139, 2009.

"Competition of chiral modifiers on platinum: A transient catalytic and in situ ATR-IR study in continuous reactors"
Daniel M. Meier, Davide Ferri, Tamas Mallat, Alfons Baiker. J. Catal, 244, 2, Pages 260-263, 2006.

"Hydrogen-Bonding Interactions in Cinchonidine−2-Methyl-2-Hexenoic Acid Complexes: A Combined Spectroscopic and Theoretical Study"
Daniel M. Meier, Atsushi Urakawa, Natascia Turrà, Heinz Rüegger, Alfons Baiker. J. Phys. Chem. A, 112 (27), Pages 6150–6158, 2008.

"Design and performance of a flow-through polarization-modulation infrared reflection-absorption spectroscopy cell for time-resolved simultaneous surface and liquid phase detection under concentration and temperature perturbations"
Daniel M. Meier, Atsushi Urakawa, Roland Mäder, Alfons Baiker. Review of Scientific Instruments 80, 094101, 2009.

"Polarization-modulation infrared reflection-absorption spectroscopy affording time-resolved simultaneous detection of surface and liquid phase species at catalytic solid–liquid Interfaces"
Daniel M. Meier, Atsushi Urakawa, Alfons Baiker. Analyst, 134,Pages 1779-1780, 2009

2009-2017: Numerous application notes, application guides and books, posters and conference contributions for OZONIA and BUCHI Labortechnik AG.

Weitere Publikationen

Daniel M. Meier, Catch me if you can – Herausforderungen der CO2-Abscheidung und CO2-Umwandlung in Treibstoffe, Tagung: Retten alternative Treibstoffe das Klima?, Smart City Vereinigung Bern, 16.6.2022.

Daniel M. Meier, Den Energieverbrauch bei Carbon Capture reduzieren, Swiss Green Economy Symposium, Winterthur, 07.09.2022.

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