Dr. Nobutaka Maeda

Persönliches Profil

Tätigkeit an der ZHAW

Wissenschaftlicher Mitarbeiter im Labor für Verfahrenstechnik

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

Arbeits- und Forschungsschwerpunkte, Spezialkenntnisse

CO2 capture & utilisation, Heterogeneous catalysis, Spectroscopy, In situ/operando techniques, Energy conversion, Exhaust gas control, Wastewater treatment, Fine chemicals synthesis

Aus- und Fortbildung

2004-2007 PhD at Kanagawa University, Japan
2002-2004 Master's degree at Kanagawa University, Japan
1998-2002 Bachelor's degree at Kanagawa University, Japan

Beruflicher Werdegang

2020 April - Wissenschatlicher Mitarbeiter at ZHAW, Switzerland
2019 - 2020 WPI Associate Professor at Kyushu University, Japan
2016 - 2018 Professor at Dalian Institute of Chemical Physics, China
2013 - 2018 Associate Professor at Dalian University of Technology, China
2011 - 2012 Postdoctoral Researcher & Sub-group Leader at ETH Zurich, Switzerland
2010 - 2011 Senior Postdoctoral Researcher at Italian Institute of Technology, Italy
2008 - 2009 Postdoctoral Researcher at ETH Zurich, Switzerland
2007 - 2008 Postdoctoral Researcher at University of Yamanashi, Japan

Mitglied in Netzwerken

• Catalysis Society of Japan
• American Chemical Society

Projekte

• HONDA MES 2 / ProjektleiterIn / Projekt laufend
• IR-Zelle für die inline-Überwachung von Extraktionen mit überkritischem CO2 / Teammitglied / Projekt laufend
• In situ IR spectroscopic approach to elucidate reaction mechanisms of exhaust gas purification catalysts / ProjektleiterIn / Projekt abgeschlossen

Publikationen

• Sterchi, Robert; Maeda, Nobutaka; Keller, Stefan; Zehnder, Beat; Meier, Daniel M.,

  2023.

  In situ attenuated total reflection infrared spectroscopic monitoring of supercritical CO2 extraction for green process applications.

  Industrial & Engineering Chemistry Research.

  62(8), S. 3828-3832.

  Verfügbar unter: https://doi.org/10.1021/acs.iecr.2c03558

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

  2022.

  Review on CO2 capture using amine-functionalized materials.

  ACS Omega.

  7(44), S. 39520-39530.

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

• 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

• Rivera Rocabado, David S.; Noguchi, Tomohiro G.; Hayashi, Shio; Maeda, Nobutaka; Yamauchi, Miho; Ishimoto, Takayoshi,

  2021.

  Adsorption states of N2/H2 activated on Ru nanoparticles uncovered by modulation-excitation infrared spectroscopy and density functional theory calculations.

  ACS Nano.

  15(12), S. 20079-20086.

  Verfügbar unter: https://doi.org/10.1021/acsnano.1c07825

• 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

• 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

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

  2021.

  Operando spectroscopic monitoring of active species in catalytic hydrogenation of CO2 to methanol at elevated pressure and temperature : steady-state versus transient analysis [Paper].

  In:

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

Publikationen vor Tätigkeit an der ZHAW

"Bifunctional electrochemical properties of La0.8Sr0.2Co0.8M0.2O3-δ (M= Ni, Fe, Mn, Cu): efficient elemental doping based on structural and pH-dependent study"
J. Cheng, P. Ganesan, Z. Wang, M. Zhang, G. Zhang, N. Maeda, J. Matsuda, M. Yamauchi, B. Chi, N. Nakashima*, Materials Advance, 3, 272 (2022).


"Support Effect of Metal–Organic Frameworks on Ethanol Production through Acetic Acid Hydrogenation"
S. Yoshimaru, M. Sadakiyo*, N. Maeda, M. Yamauchi, K. Kato, J. Pirillo, Y. Kijikata, ACS Appl. Mater. Interfaces, 13, 19992 (2021).


"CO2-free Energy System—Polymer Electrolyte Alcohol Electro-synthesis Cell with a Low Iridium Content Anode Based on in situ Growth Method"
J. Cheng, M. Higashi, N. Maeda, J. Matsuda, M. Yamauchi, N. Nakashima*, Electrochim. Acta, 361, 137078 (2020).


"Structure and Catalytic Behavior of Alumina Supported Bimetallic Au-Rh Nanoparticles in the Reduction of NO by CO"
X. Wang, H. Wang, N. Maeda*, A. Baiker*, Catalysts, 9, 937 (2019).


"Surface Processes Occurring during Aqueous Phase Ethanol Reforming on Ru/TiO2 Tracked by ATR-IR Spectroscopy"
A. Waheed, X. Wang, N. Maeda*, S. Naito, A. Baiker*, Appl. Catal. A, 581, 111-115 (2019).


"Hydrogenation of Acetophenone on Pd/Silica−Alumina Catalysts with Tunable Acidity: Mechanistic Insight by In Situ ATR-IR Spectroscopy"
M. Chen, N. Maeda, A. Baiker*, J. Huang*, ACS Catal., 8, 6594-6600 (2018).


"Striking Activity Enhancement of Gold Supported on Ti-Al Mixed Oxide by Promotion with Ceria in the Reduction of NO with CO"
X. Wang, X. Wu, N. Maeda*, A. Baiker*, Applied Catalysis B: Environmental, 209, 62-68 (2017).


"Synergistic Effects of Au and FeOx Nanocomposites for Catalytic NO Reduction by CO"
X. Wang, N. Maeda*, A. Baiker*, ACS Catal., 6, 7898-7906 (2016).


"Insight into the mesoporous FexCe1-xO2-δ catalysts for selective catalytic reduction of NO with NH3: Regulable structure and activity "
H. Wang, Z. Qu*, H. Xie, N. Maeda, L. Miao, Z. Wang, J. Catal., 338, 56-67 (2016).


"Influence of support acidity on the performance of size-confined Pt nanoparticles in the chemoselective hydrogenation of acetophenone "
Z. Wang, K.-D. Kim, C. Zhou, M. Chen, N. Maeda, Z. Liu, J, Shi, A. Baiker, M. Hunger, J. Huang*, Catal. Sci. Tech., 5, 2788-2797 (2015).


"Insight into the Mechanism of the Preferential Oxidation of Carbon Monoxide by Isotope-Modulated Excitation IR Spectroscopy "
N. Maeda*, F. Meemken, A. Baiker*, ChemCatChem, 5, 2199-2202 (2013).


"Selectivity-Controlling Factors in Catalytic Methanol Amination Studied by Isotopically-Modulated Excitation IR Spectroscopy"
N. Maeda*, F. Meemken, K. Hungerbühler, A. Baiker*, ACS Catalysis, 3, 219-223 (2013).


"Molecular insight into Pt-catalyzed chemoselective hydrogenation of an aromatic ketone by in situ modulation-excitation IR spectroscopy"
M. Chen, N. Maeda, A. Baiker*, J. Huang*, ACS Catalysis, 2 (9), 2007-2013 (2012).


"Spectroscopic detection of active species on catalytic surfaces: steady-state versus transient method"
N. Maeda, F. Meemken, K. Hungerbühler, A. Baiker*, CHIMIA, 66 (9), 664-667 (2012).


"Platinum-catalyzed asymmetric hydrogenation: spectroscopic evidence for O-H-O hydrogen bond interaction between substrate and modifier"
F. Meemken, N. Maeda*, K. Hungerbühler, A. Baiker*, Angewandte Chemie International Edition, 51 (33), 8212-8216 (2012). selected as VIP (Very Important Paper)
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"NOx storage reduction over M/MgAl2O4 (M = Pt, Pd, and Rh): A comparative study"
S. Roy, N. van Vegten, N. Maeda, A. Baiker*, Applied Catalysis B: Environmental, 119-120, 279-286 (2012).


"Heterogeneous asymmetric hydrogenation of prochiral alkenoic acid: origin of rate and enantioselectivity enhancement by amine addition"
F. Meemken, N. Maeda*, K. Hungerbühler, A. Baiker*, ACS Catalysis, 2 (3), 464-467 (2012).


"Heterogeneous asymmetric hydrogenation of activated ketones: mechanistic insight into the role of alcohol products by in situ modulation-excitation IR spectroscopy"
N. Maeda*, S. Sano, T, Mallat, K. Hungerbühler, A. Baiker*, The Journal of Physical Chemistry C, 116 (6) 4182-4188 (2012).


"Asymmetric hydrogenation on chirally modified Pt: Origin of hydrogen in N-H-O interaction of cinchonidine and ketone"
N. Maeda*, K. Hungerbühler, A. Baiker*, Journal of the American Chemical Society, 133 (49) 19567-19569 (2011).


"Influence of Ba precursor on structural and catalytic properties of Pt-Ba/alumina NOx storage-reduction catalyst"
N. Maeda, A. Urakawa*, R. Sharma, A. Baiker*, Applied Catalysis B: Environmental 103 (1-2) 154-162 (2011).


"Surface Reactions on Pt during NOx Storage-Reduction Studied by Polarization-Modulation Infrared Reflection-Absorption Spectroscopy "
N. Maeda, A. Urakawa*, A. Baiker*, The Journal of Physical Chemistry Letters, 1 54-58 (2010).


"Support effects and chemical gradients along the catalyst bed in NOx storage-reduction studied by space- and time-resolved in situ DRIFTS"
N. Maeda, A. Urakawa*, A. Baiker*, The Journal of Physical Chemistry C, 113 (38) 16724-16735 (2009).


"Influence of Pt-Ba Proximity on NOx Storage-Reduction Mechanisms: A Space- and Time-Resolved In Situ Infrared Spectroscopic Study"
N. Maeda, A. Urakawa*, A. Baiker*, Topics in Catalysis, 52 (13) 1746-1751 (2009).


"Space- and Time-Resolved Combined DRIFT and Raman Spectroscopy: Monitoring of Dynamic Surface and Bulk Processes during NOx Storage-Reduction "
A. Urakawa*, N. Maeda, A. Baiker, Angewandte Chemie International Edition, 47 (48) 9256-9259 (2008).


"H2O-tolerant monolithic catalysts for preferential oxidation of carbon monoxide in the presence of hydrogen"
N. Maeda, T. Matsushima, M. Kotobuki, T. Miyao, H. Uchida, H. Yamashita, M. Watanabe*, Applied Catalysis A: General 370 (1-2) 50-53 (2009).


"Performance of Pt-Fe/mordenite monolithic catalysts for preferential oxidation of carbon monoxide in a reformate gas for PEFCs"
N. Maeda, T. Matsushima, H. Uchida, H. Yamashita, M. Watanabe*, Applied Catalysis A: General 341 (1-2) 93-97 (2008).


"Formation of acetaldehyde and acetonitrile by CH4-CO-NO reaction over silica supported Rh and Ru catalysts"
N. Maeda, T. Miyao, S. Naito*, Studies in Surface Science and Catalysis 147 589-594 (2004).


"Cationic Rh-catalyzed CO insertion into surface carbonaceous species formed by the decomposition of methane in the presence of nitric oxide"
N. Maeda, T. Miyao, S. Naito*, Catalysis Letters 91 (3-4) 175-179 (2003).


"Marked role of carbon monoxide in the formation of benzene during CH4-CO reaction over Rh/SiO2 catalysts"
N. Maeda, M. Miyauchi, T. Miyao, S. Naito*, Catalysis Letters 84 (3-4) 245-249 (2002).

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