Alle Publikationen des IOK der Universität Ulm
2022
255.
Forster-Tonigold,
K.;
Buchner,
F.;
Bansmann,
J.;
Behm,
R. J.;
Groß,
A.
A combined XPS and computational study of the chemical reduction of BMP-TFSI by lithium
Batteries & Supercaps, 12 (5) :e202200307
2022
Herausgeber: Wiley-VCH
A combined XPS and computational study of the chemical reduction of BMP-TFSI by lithium
Batteries & Supercaps, 12 (5) :e202200307
2022
Herausgeber: Wiley-VCH
| DOI: | 10.1002/batt.202200307 |
254.
Vaida,
M. E.;
Rawal,
T. B.;
Bernhardt,
T. M.;
Marsh,
B. M.;
Rahman,
T. S.;
Leone,
S. R.
Nonmetal-to-Metal Transition of Magnesia Supported Au Clusters Affects the Ultrafast Dissociation Dynamics of Adsorbed CH3Br Molecules
The Journal of Physical Chemistry Letters, 13 (21) :4747-4753
2022
Nonmetal-to-Metal Transition of Magnesia Supported Au Clusters Affects the Ultrafast Dissociation Dynamics of Adsorbed CH3Br Molecules
The Journal of Physical Chemistry Letters, 13 (21) :4747-4753
2022
| DOI: | 10.1021/acs.jpclett.2c00968 |
253.
Usselmann,
M.;
Bansmann,
J.;
Kuehne,
A. J. C.
Switchable Polyacrylonitrile-Copolymer for Melt-Processing and Thermal Carbonization - 3D Printing of Carbon Supercapacitor Electrodes with High Capacitance
Advanced Materials, 35 (6) :2208484
2022
Switchable Polyacrylonitrile-Copolymer for Melt-Processing and Thermal Carbonization - 3D Printing of Carbon Supercapacitor Electrodes with High Capacitance
Advanced Materials, 35 (6) :2208484
2022
| DOI: | 10.1002/adma.202208484 |
252.
Lang,
S. M.;
Helzel,
I.;
Bernhardt,
T. M.;
Barnett,
R. N.;
Landman,
U.
Spin-Gated Selectivity of the Water Oxidation Reaction Mediated by Free Pentameric CaxMn5–xO5+ Clusters
Journal of the American Chemical Society, 144 (33) :15339-15347
2022
Spin-Gated Selectivity of the Water Oxidation Reaction Mediated by Free Pentameric CaxMn5–xO5+ Clusters
Journal of the American Chemical Society, 144 (33) :15339-15347
2022
| DOI: | 10.1021/jacs.2c06562 |
251.
Carter,
J. H.;
Abdel-Mageed,
A. M.;
Zhou,
D.;
Morgan,
D. J.;
Liu,
X.;
Bansmann,
J.;
Chen,
S.;
Behm,
R. J.;
Hutchings,
G.
Reversible Growth of Gold Nanoparticles in the Low-Temperature Water−Gas Shift Reaction
ACS Nano, 16 :15197–15205
2022
Reversible Growth of Gold Nanoparticles in the Low-Temperature Water−Gas Shift Reaction
ACS Nano, 16 :15197–15205
2022
| DOI: | 10.1021/acsnano.2c06504 |
250.
Hoffmann,
A.;
Jimenez-Calvo,
P.;
Bansmann,
J.;
Strauss,
V.;
Kuehne,
A. J. C.
On-Chip Direct Laser Writing of PAN-Based Carbon Supercapacitor Electrodes
Macromolecular Rapid Communications, 43 (6) :2100731
2022
On-Chip Direct Laser Writing of PAN-Based Carbon Supercapacitor Electrodes
Macromolecular Rapid Communications, 43 (6) :2100731
2022
| DOI: | https://doi.org/10.1002/marc.202100731 |
249.
Hoffmann,
A.;
Uhl,
M.;
Ceblin,
M.;
Rohrbach,
F.;
Bansmann,
J.;
Mallah,
M.;
Heuermann,
H.;
Jacob,
T.;
Kuehne,
A. J. C.
Atmospheric Pressure Plasma-Jet Treatment of PAN-Nonwovens: Carbonization of Nanofiber Electrodes
C, 8 (3) :33
2022
Atmospheric Pressure Plasma-Jet Treatment of PAN-Nonwovens: Carbonization of Nanofiber Electrodes
C, 8 (3) :33
2022
| DOI: | 10.3390/c8030033 |
248.
Fresco-Cala,
B.;
López-Lorente,
Ángela I.;
Batista,
A.;
Dinc,
M.;
Bansmann,
J.;
Behm,
R. J.;
Cárdenas Aranzana,
S.;
Mizaikoff,
B.
Icosahedral Gold Nanoparticles Decorated with Hexon Protein: A Surrogate for Adenovirus Serotype 5
Analytical and Bioanalytical Chemistry, in press
2022
Icosahedral Gold Nanoparticles Decorated with Hexon Protein: A Surrogate for Adenovirus Serotype 5
Analytical and Bioanalytical Chemistry, in press
2022
| DOI: | 10.1007/s00216-022-04368-x |
247.
Hoffmann,
A.;
Uhl,
M.;
Ceblin,
M.;
Bansmann,
J.;
Jacob,
T.;
Kuehne,
A. J. C.
Atmospheric pressure plasma-jet treatment of polyacrylonitrile-nonwovens:~Activation leading to high surface area carbon electrodes
Plasma Processes and Polymers, 19 (12) :2200114
2022
Atmospheric pressure plasma-jet treatment of polyacrylonitrile-nonwovens:~Activation leading to high surface area carbon electrodes
Plasma Processes and Polymers, 19 (12) :2200114
2022
| DOI: | 10.1002/ppap.202200114 |
246.
Klein,
F.;
Bansmann,
J.;
Jusys,
Z.;
Pfeiffer,
C.;
Scheitenberger,
P.;
Mundszinger,
M.;
Geiger,
D.;
Biskupek,
J.;
Kaiser,
U.;
Behm,
R. J.;
Wohlfahrt-Mehrens,
M.;
Axmann,
P.
Enhanced electrochemical capacity of spherical Co-free Li1.2Mn0.6Ni0.2O2 particles after a water and acid treatment and its influence on the initial gas evolution behavior
ChemSusChem, 15 (20) :e202201061
2022
Enhanced electrochemical capacity of spherical Co-free Li1.2Mn0.6Ni0.2O2 particles after a water and acid treatment and its influence on the initial gas evolution behavior
ChemSusChem, 15 (20) :e202201061
2022
| DOI: | 10.1002/cssc.202201061 |
245.
Cisneros,
S.;
Chen,
S.;
Fauth,
C.;
Abdel-Mageed,
A. M.;
Pollastri,
S.;
Bansmann,
J.;
Olivi,
L.;
Aquilanti,
J.;
Atia,
H.;
Rabeah,
J.;
Behm,
R. J.
Controlling the Selectivity of High-Surface-Area Ru/TiO2 Catalysts in CO2 Reduction - Modifying the Reaction Properties by Si Doping of the Support
Applied Catalysis B: Environmental, 317 :121748
2022
Controlling the Selectivity of High-Surface-Area Ru/TiO2 Catalysts in CO2 Reduction - Modifying the Reaction Properties by Si Doping of the Support
Applied Catalysis B: Environmental, 317 :121748
2022
| DOI: | 10.1016/j.apcatb.2022.121748 |
244.
Klein,
F.;
Pfeiffer,
C.;
Bansmann,
J.;
Jusys,
Z.;
Behm,
R. J.;
Wohlfahrt-Mehrens,
M.;
Lindén,
Mika;
Axmann,
P.
Effect of Three-in-One Surface Modification of Spherical, Co-Free Li-Rich Cathode Material for Li-Ion Batteries (Li1.2Mn0.6Ni0.2O2) with Citric Acid
Journal of The Electrochemical Society, 169 (12) :120533
2022
Effect of Three-in-One Surface Modification of Spherical, Co-Free Li-Rich Cathode Material for Li-Ion Batteries (Li1.2Mn0.6Ni0.2O2) with Citric Acid
Journal of The Electrochemical Society, 169 (12) :120533
2022
| DOI: | 10.1149/1945-7111/acaa5c |
2021
243.
Lang,
S. M.;
Bernhardt,
T. M.;
Bakker,
J. M.;
Barnett,
R. N.;
Landman,
U.
Cluster Size Dependent Interaction of Free Manganese Oxide Clusters with Acetic Acid and Methyl Acetate
The Journal of Physical Chemistry A, 125 (20) :4435-4445
2021
Cluster Size Dependent Interaction of Free Manganese Oxide Clusters with Acetic Acid and Methyl Acetate
The Journal of Physical Chemistry A, 125 (20) :4435-4445
2021
| DOI: | 10.1021/acs.jpca.1c03195 |
242.
Schüttler,
K. M.;
Bansmann,
J.;
Engstfeld,
A. K.;
Behm,
R. J.
Low-temperature nucleation and growth of Zn on Au(111) and thermal stability toward (surface) alloy formation
The Journal of Chemical Physics, 155 (12) :124704
2021
Low-temperature nucleation and growth of Zn on Au(111) and thermal stability toward (surface) alloy formation
The Journal of Chemical Physics, 155 (12) :124704
2021
| DOI: | 10.1063/5.0054980 |
241.
Abdel-Mageed,
A. M.;
Wiese,
K.;
Hauble,
A.;
Bansmann,
J.;
Rabeah,
J.;
Parlinska-Wojtan,
M.;
Brückner,
A.;
Behm,
R. J.
Steering the selectivity in CO2 reduction on highly active Ru/TiO2 catalysts: Support particle size effects
Journal of Catalysis, 401 :160-173
2021
Steering the selectivity in CO2 reduction on highly active Ru/TiO2 catalysts: Support particle size effects
Journal of Catalysis, 401 :160-173
2021
| DOI: | 0.1016/j.jcat.2021.07.020 |
240.
Diemant,
T.;
Bansmann,
J.
CO Oxidation on Planar Au/TiO 2 Model Catalysts under Realistic Conditions: A Combined Kinetic and IR Study
ChemPhysChem, 22 (6) :542–552
2021
CO Oxidation on Planar Au/TiO 2 Model Catalysts under Realistic Conditions: A Combined Kinetic and IR Study
ChemPhysChem, 22 (6) :542–552
2021
| DOI: | https://doi.org/10.1002/cphc.202000960 |
239.
Forster-Tonigold,
K.;
Kim,
J.;
Bansmann,
J.;
Groß,
A.;
Buchner,
F.
Model Studies on the Formation of the Solid Electrolyte Interphase: Reaction of Li with Ultrathin Adsorbed Ionic-Liquid Films and Co 3 O 4 (111) Thin Films
ChemPhysChem, 22 (5) :441–454
2021
Model Studies on the Formation of the Solid Electrolyte Interphase: Reaction of Li with Ultrathin Adsorbed Ionic-Liquid Films and Co 3 O 4 (111) Thin Films
ChemPhysChem, 22 (5) :441–454
2021
| DOI: | https://doi.org/10.1002/cphc.202001033 |
238.
Lang,
S. M.;
Zimmermann,
N.;
Bernhardt,
T. M.;
Barnett,
R. N.;
Yoon,
B.;
Landman,
U.
Size, stoichiometry, dimensionality, and Ca doping of manganese oxide-based water oxidation clusters: An oxyl/hydroxy mechanism for oxygen–oxygen coupling
The Journal of Physical Chemistry Letters, 12 (22) :5248-5255
2021
Size, stoichiometry, dimensionality, and Ca doping of manganese oxide-based water oxidation clusters: An oxyl/hydroxy mechanism for oxygen–oxygen coupling
The Journal of Physical Chemistry Letters, 12 (22) :5248-5255
2021
| DOI: | 10.1021/acs.jpclett.1c01299 |
237.
Schüttler,
K. M.;
Bansmann,
J.;
Engstfeld,
A. K.;
Behm,
R. J.
Interaction of bimetallic Zn/Au(111) surfaces with O2 or NO2 and formation of ZnOx/Au(111)
Surface Science, 711 :121863
2021
Interaction of bimetallic Zn/Au(111) surfaces with O2 or NO2 and formation of ZnOx/Au(111)
Surface Science, 711 :121863
2021
| DOI: | 10.1016/j.susc.2021.121863 |
236.
Abdel-Mageed,
A. M.;
Büsselmann,
M.;
Wiese,
K.;
Fauth,
C.;
Behm,
R. J.
Influence of water vapor on the performance of Au/ZnO catalysts in methanol synthesis from CO2 and H2: A high-pressure kinetic and TAP reactor study
Applied Catalysis B: Environmental, 297 :120416
2021
Influence of water vapor on the performance of Au/ZnO catalysts in methanol synthesis from CO2 and H2: A high-pressure kinetic and TAP reactor study
Applied Catalysis B: Environmental, 297 :120416
2021
| DOI: | https://doi.org/10.1016/j.apcatb.2021.120416 |
235.
Abdel-Mageed,
A. M.;
Chen,
S.;
Fauth,
C.;
Häring,
T.;
Bansmann,
J.
Fundamental Aspects of Ceria Supported Au Catalysts Probed by In Situ / Operando Spectroscopy and TAP Reactor Studies
ChemPhysChem, 22 (13) :1302-1315
2021
Fundamental Aspects of Ceria Supported Au Catalysts Probed by In Situ / Operando Spectroscopy and TAP Reactor Studies
ChemPhysChem, 22 (13) :1302-1315
2021
| DOI: | 10.1002/cphc.202100027 |
234.
Chen,
S.;
Abdel-Mageed,
A. M.;
Li,
M.;
Cisneros,
S.;
Bansmann,
J.;
Rabeah,
J.;
Brückner,
A.;
Groß,
A.;
Behm,
R. J.
Electronic metal-support interactions and their promotional effect on CO2 methanation on Ru/ZrO2 catalysts
Journal of Catalysis, 400 :407-420
2021
Electronic metal-support interactions and their promotional effect on CO2 methanation on Ru/ZrO2 catalysts
Journal of Catalysis, 400 :407-420
2021
| DOI: | https://doi.org/10.1016/j.jcat.2021.06.028 |
233.
Cisneros,
S.;
Chen,
S.;
Diemant,
T.;
Bansmann,
J.;
Abdel-Mageed,
A. M.;
Goepel,
M.;
Olesen,
S. E.;
Welter,
E. S.;
Parlinska-Wojtan,
M.;
Gläser,
R.;
Chorkendorff,
I.;
Behm,
R. J.
Effects of SiO2-doping on high-surface-area Ru/TiO_2 catalysts for the selective CO methanation
Appl. Catal., B, 282 :119483
2021
Effects of SiO2-doping on high-surface-area Ru/TiO_2 catalysts for the selective CO methanation
Appl. Catal., B, 282 :119483
2021
| DOI: | https://doi.org/10.1016/j.apcatb.2020.119483 |
232.
Engstfeld,
A. K.;
Weizenegger,
S.;
Pithan,
L.;
Beyer,
P.;
Jusys,
Z.;
Bansmann,
J.;
Behm,
R. J.;
Drnec,
J.
Ru(0001) surface electrochemistry in the presence of specifically adsorbing anions
Electrochimica Acta, 389 :138350
2021
Ru(0001) surface electrochemistry in the presence of specifically adsorbing anions
Electrochimica Acta, 389 :138350
2021
| DOI: | 10.1016/j.electacta.2021.138350 |
2020
231.
Schüttler,
K. M.;
Bansmann,
J.;
Engstfeld,
A. K.;
Behm,
R. J.
Adlayer growth vs spontaneous (near-) surface alloy formation: Zn growth on Au(111)
J. Chem. Phys., 152 (12) :124701
2020
Adlayer growth vs spontaneous (near-) surface alloy formation: Zn growth on Au(111)
J. Chem. Phys., 152 (12) :124701
2020
| DOI: | https://doi.org/10.1063/1.5145294 |
230.
Lang,
S. M.;
Bernhardt,
T. M.;
Bakker,
J. M.;
Barnett,
R. N.;
Landman,
U.
Energetic Stabilization of Carboxylic Acid Conformers by Manganese Atoms and Clusters
J. Phys. Chem. A, 124 (24) :4990-4997
2020
Energetic Stabilization of Carboxylic Acid Conformers by Manganese Atoms and Clusters
J. Phys. Chem. A, 124 (24) :4990-4997
2020
| DOI: | 10.1021/acs.jpca.0c03315 |
229.
Zimmermann,
N.;
Bernhardt,
T. M.;
Bakker,
J. M.;
Barnett,
R. N.;
Landman,
U.;
Lang,
S. M.
Infrared Spectroscopy of Gas-Phase MnxOy(CO2)z+ Complexes
J. Phys. Chem. A, 124 (8) :1561-1566
2020
Infrared Spectroscopy of Gas-Phase MnxOy(CO2)z+ Complexes
J. Phys. Chem. A, 124 (8) :1561-1566
2020
| DOI: | 10.1021/acs.jpca.9b11258 |
228.
Mravak,
A.;
Krstic,
M.;
Lang,
S. M.;
Bernhardt,
T. M.;
Bonačić-Koutecký,
V.
Intrazeolite CO Methanation by Small Ruthenium Carbonyl Complexes: Translation from Free Clusters into the Cage
Chem. Cat. Chem., 12 (15) :3857-3862
2020
Intrazeolite CO Methanation by Small Ruthenium Carbonyl Complexes: Translation from Free Clusters into the Cage
Chem. Cat. Chem., 12 (15) :3857-3862
2020
| DOI: | https://doi.org/10.1002/cctc.202000716 |
227.
Chen,
S.;
Abdel-Mageed,
A. M.;
Dyballa,
M.;
Parlinska-Wojtan,
M.;
Bansmann,
J.;
Pollastri,
S.;
Olivi,
L.;
Aquilanti,
G.;
Behm,
R. J.
Raising the COx Methanation Activity of a Ru/γ-Al2O3 Catalyst by Activated Modification of Metal–Support Interactions
Angew. Chem. - Int. Ed., 59 (50) :22763-22770
2020
Raising the COx Methanation Activity of a Ru/γ-Al2O3 Catalyst by Activated Modification of Metal–Support Interactions
Angew. Chem. - Int. Ed., 59 (50) :22763-22770
2020
| DOI: | https://doi.org/10.1002/anie.202007228 |
2019
226.
Lang,
S. M.;
Bernhardt,
T. M.;
Bakker,
J. M.;
Yoon,
B.;
Landman,
U.
Methanol C-O bond activation by free gold clusters probed via infrared photodissociation spectroscopy
Z. Phys. Chem., 233 :865-880
2019
Methanol C-O bond activation by free gold clusters probed via infrared photodissociation spectroscopy
Z. Phys. Chem., 233 :865-880
2019
| DOI: | https://doi.org/10.1515/zpch-2018-1368 |
225.
Lang,
S. M.;
Bernhardt,
T. M.;
Bakker,
J. M.;
Yoon,
B.;
Landman,
U.
Selective C-H bond Activation of Ethane by Free Gold Clusters
Int. J. Mass Spectrom., 435 :241
2019
Selective C-H bond Activation of Ethane by Free Gold Clusters
Int. J. Mass Spectrom., 435 :241
2019
| DOI: | https://doi.org/10.1016/j.ijms.2018.10.034 |
224.
Lang,
S. M.;
Barnett,
R. N.;
Landman,
U.
Oxygen Sensitivity of Free Nonligated Iron–Sulfur Clusters
The Journal of Physical Chemistry C, 123 (45) :27681-27689
2019
Oxygen Sensitivity of Free Nonligated Iron–Sulfur Clusters
The Journal of Physical Chemistry C, 123 (45) :27681-27689
2019
| DOI: | 10.1021/acs.jpcc.9b09052 |
223.
Chen,
S.;
Abdel-Mageed,
A. M.;
Li,
D.;
Bansmann,
J.;
Cisneros,
S.;
Biskupek,
J.;
Huang,
W.;
Behm,
R. J.
Morphology-Engineered Highly Active and Stable Ru/TiO2 Catalysts for Selective CO Methanation
Angewandte Chemie International Edition, 58 (31) :10732-10736
2019
Morphology-Engineered Highly Active and Stable Ru/TiO2 Catalysts for Selective CO Methanation
Angewandte Chemie International Edition, 58 (31) :10732-10736
2019
| DOI: | https://doi.org/10.1002/anie.201903882 |
222.
Zimmermann,
N.;
Bernhardt,
T. M.;
Bakker,
J. M.;
Landman,
U.;
Lang,
S. M.
Infrared photodissociation spectroscopy of di-manganese oxide cluster cations
Phys. Chem. Chem. Phys., 21 (43) :23922-23930
2019
Infrared photodissociation spectroscopy of di-manganese oxide cluster cations
Phys. Chem. Chem. Phys., 21 (43) :23922-23930
2019
| DOI: | https://doi.org/10.1039/C9CP04586D |
221.
Bansmann,
J.;
Abdel-Mageed,
A. M.;
Chen,
S.;
Fauth,
C.;
Häring,
T.;
Kucerova,
G.;
Wang,
Y.;
Behm,
R. J.
Chemical and Electronic Changes of the CeO2 Support during CO Oxidation on Au/CeO2 Catalysts: Time-Resolved Operando XAS at the Ce LIII Edge
Catalysts, 9 (10) :785
2019
Chemical and Electronic Changes of the CeO2 Support during CO Oxidation on Au/CeO2 Catalysts: Time-Resolved Operando XAS at the Ce LIII Edge
Catalysts, 9 (10) :785
2019
| DOI: | https://doi.org/10.3390/catal9100785 |
220.
Mauthe,
S.;
Fleischer,
I.;
Bernhardt,
T. M.;
Lang,
S. M.;
Barnett,
R. N.;
Landman,
U.
A Gas-Phase CanMn4−nO4+ Cluster Model for the Oxygen-Evolving Complex of Photosystem II
Angew. Chem. Int. Ed., 58 (25) :1433-7851
2019
A Gas-Phase CanMn4−nO4+ Cluster Model for the Oxygen-Evolving Complex of Photosystem II
Angew. Chem. Int. Ed., 58 (25) :1433-7851
2019
| DOI: | https://doi.org/10.1002/anie.201903738 |
219.
Buchner,
F.;
Forster-Tonigold,
K.;
Kim,
J.;
Bansmann,
J.;
Groß,
A.;
Behm,
R. J.
Interaction between Li, Ultrathin Adsorbed Ionic Liquid Films, and CoO(111) Thin Films: A Model Study of the Solid|Electrolyte Interphase Formation
Chem. Mater., 31 (15) :5537-5549
2019
Interaction between Li, Ultrathin Adsorbed Ionic Liquid Films, and CoO(111) Thin Films: A Model Study of the Solid|Electrolyte Interphase Formation
Chem. Mater., 31 (15) :5537-5549
2019
| DOI: | 10.1021/acs.chemmater.9b01253 |
218.
Lang,
S. M.;
Bernhardt,
T. M.;
Bakker,
J. M.;
Yoon,
B.;
Landman,
U.
Co-adsorption of O₂ and C₂H₄ on a free gold dimer probed via infrared photodissociation spectroscopy
J. Am. Soc. Mass Spectrom, 30 (30) :1895
2019
Co-adsorption of O₂ and C₂H₄ on a free gold dimer probed via infrared photodissociation spectroscopy
J. Am. Soc. Mass Spectrom, 30 (30) :1895
2019
| DOI: | 10.1007/s13361-019-02259-7 |
217.
Lang,
S. M.
Gas Phase Model Systems for Catalysis
Zeitschrift für Physikalische Chemie, 233 (6) :755-758
2019
Gas Phase Model Systems for Catalysis
Zeitschrift für Physikalische Chemie, 233 (6) :755-758
2019
| DOI: | doi:10.1515/zpch-2019-1066 |
2018
216.
Lang,
S. M.;
Bernhardt,
T. M.
Decomposition of acetic acid mediated by free MnxOx+ (x = 3, 4) clusters
Int. J. Mass Spectrom., 433 :7-10
2018
Decomposition of acetic acid mediated by free MnxOx+ (x = 3, 4) clusters
Int. J. Mass Spectrom., 433 :7-10
2018
| DOI: | https://doi.org/10.1016/j.ijms.2018.07.008 |
215.
Buchner,
F.;
Forster-Tonigold,
K.;
Kim,
J.;
Adler,
C.;
Bansmann,
J.;
Groß,
A.;
Behm,
R. J.
Experimental and Computational Study on the Interaction of an Ionic Liquid Monolayer with Lithium on Pristine and Lithiated Graphite
J Phys Chem C, 122 (33) :18968–18981
2018
Experimental and Computational Study on the Interaction of an Ionic Liquid Monolayer with Lithium on Pristine and Lithiated Graphite
J Phys Chem C, 122 (33) :18968–18981
2018
| DOI: | https://doi.org/10.1021/acs.jpcc.8b04660 |
214.
Buchner,
F.;
Uhl,
B.;
Forster-Tonigold,
K.;
Bansmann,
J.;
Groß,
A.;
Behm,
R. J.
Structure formation and surface chemistry of ionic liquids on model electrode surfaces — model studies for the electrode | electrolyte interface in Li-ion batteries
J. Chem. Phys., 148 (19) :193821
2018
Structure formation and surface chemistry of ionic liquids on model electrode surfaces — model studies for the electrode | electrolyte interface in Li-ion batteries
J. Chem. Phys., 148 (19) :193821
2018
| DOI: | https://doi.org/10.1063/1.5012878 |
213.
Jochmann,
K.;
Bernhardt,
T. M.
The influence of metal cluster lattices on the screening of image potential state electrons on graphene
J. Chem. Phys., 149 :164706
2018
The influence of metal cluster lattices on the screening of image potential state electrons on graphene
J. Chem. Phys., 149 :164706
2018
| DOI: | https://doi.org/10.1063/1.5052643 |
212.
Lang,
S. M.;
Bernhardt,
T. M.;
Bakker,
J. M.;
Yoon,
B.;
Landman,
U.
The interaction of ethylene with free gold cluster cations: Infrared photodissociation spectroscopy combined with electronic and vibrational structure calculations
J. Phys.: Condens. Matter, 30 :504001
2018
The interaction of ethylene with free gold cluster cations: Infrared photodissociation spectroscopy combined with electronic and vibrational structure calculations
J. Phys.: Condens. Matter, 30 :504001
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| DOI: | https://doi.org/10.1088/1361-648X/aaeafd |
211.
Lang,
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Miyajima,
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Bernhardt,
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Barnett,
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Thermal stability of iron–sulfur clusters
Phys. Chem. Chem. Phys., 20 (11) :7781-7790
2018
Thermal stability of iron–sulfur clusters
Phys. Chem. Chem. Phys., 20 (11) :7781-7790
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| DOI: | 10.1039/C8CP00515J |
2017
210.
Vaida,
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Tuning the ultrafast photodissociation dynamics of CH3Br on ultrathin MgO films by reducing the layer thickness to the 2D limit
Chem. Phys. Lett., 688 :106-111
2017
Tuning the ultrafast photodissociation dynamics of CH3Br on ultrathin MgO films by reducing the layer thickness to the 2D limit
Chem. Phys. Lett., 688 :106-111
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| DOI: | https://doi.org/10.1016/j.cplett.2017.09.019 |
209.
Lang,
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Tuning the oxidative power of free iron–sulfur clusters
Physical Chemistry Chemical Physics, 19 (11) :8055-8060
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Tuning the oxidative power of free iron–sulfur clusters
Physical Chemistry Chemical Physics, 19 (11) :8055-8060
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| DOI: | 10.1039/C7CP00023E |
208.
Lang,
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Selective C−H Bond Cleavage in Methane by Small Gold Clusters
Angew. Chem. Int. Ed., 56 :13406-13410
2017
Selective C−H Bond Cleavage in Methane by Small Gold Clusters
Angew. Chem. Int. Ed., 56 :13406-13410
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| DOI: | https://doi.org/10.1002/anie.201706009 |
207.
Buchner,
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Intercalation and Deintercalation of Lithium at the Ionic Liquid–Graphite(0001) Interface
The Journal of Physical Chemistry Letters, 8 (23) :5804–5809
2017
Intercalation and Deintercalation of Lithium at the Ionic Liquid–Graphite(0001) Interface
The Journal of Physical Chemistry Letters, 8 (23) :5804–5809
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| DOI: | https://doi.org/10.1021/acs.jpclett.7b02530 |
206.
Bansmann,
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Influence of re-activation and ongoing CO oxidation reaction on the chemical and electronic properties of Au on a Au/CeO 2 catalyst: a XANES study at the Au L III edge
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Influence of re-activation and ongoing CO oxidation reaction on the chemical and electronic properties of Au on a Au/CeO 2 catalyst: a XANES study at the Au L III edge
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| DOI: | https://doi.org/10.1016/j.elspec.2017.01.002 |
205.
Lang,
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Chemical reactivity and catalytic properties of binary gold clusters: Atom by atom tuning in a gas phase approach
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Chemical reactivity and catalytic properties of binary gold clusters: Atom by atom tuning in a gas phase approach
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Active au species during the low-temperature water gas shift reaction on Au/CeO2: a time-resolved operando XAS and DRIFTS study
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| DOI: | https://doi.org/10.1021/acscatal.7b01563 |
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| DOI: | https://doi.org/10.1002/9783527698417.ch17 |
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Cluster size and composition dependent water deprotonation by free manganese oxide clusters
Phys. Chem. Chem. Phys., 18 :15727-15737
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| DOI: | https://doi.org/10.1039/C6CP00779A |
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J. Catal., 341 :160–179
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| DOI: | https://doi.org/10.1016/j.jcat.2016.07.005 |
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Geometric and electronic structure of Au on au/CeO2catalysts during the CO oxidation: deactivation by reaction induced particle growth
J. Phys.: Conf. Ser., 712 :012044
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Geometric and electronic structure of Au on au/CeO2catalysts during the CO oxidation: deactivation by reaction induced particle growth
J. Phys.: Conf. Ser., 712 :012044
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| DOI: | https://doi.org/10.1088/1742-6596/712/1/012044 |
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Interaction of Iron–Sulfur Clusters with N2: Biomimetic Systems in the Gas Phase
J. Phys. Chem. C, 120 (23) :12549-12558
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Interaction of Iron–Sulfur Clusters with N2: Biomimetic Systems in the Gas Phase
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Structure formation and thermal stability of mono- and multilayers of ethylene carbonate on Cu(111): a model study of the electrode|electrolyte interface
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Structure formation and thermal stability of mono- and multilayers of ethylene carbonate on Cu(111): a model study of the electrode|electrolyte interface
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| DOI: | https://doi.org/10.1021/acs.jpcc.6b05012 |
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The durability of stainless steel bondings
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The durability of stainless steel bondings
ADHESION ADHESIVES&SEALANTS, 13 (4) :26–31
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| DOI: | https://doi.org/10.1007/s35784-016-0036-z |
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The role of surface Pt on the coadsorption of hydrogen and CO on Pt monolayer film modified Ru(0001) surfaces
Surf. Sci., 652 :123–133
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The role of surface Pt on the coadsorption of hydrogen and CO on Pt monolayer film modified Ru(0001) surfaces
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Wie lange halten Edelstahlklebungen
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| DOI: | https://doi.org/10.1007/s35145-016-0037-8 |
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Water Deprotonation via Oxo-Bridge Hydroxylation and 18O‑Exchange in Free Tetra-Manganese Oxide Clusters
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| DOI: | https://doi.org/10.1021/jp5106532 |
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The interaction of water with free Mn4O4+ clusters: Deprotonation and adsorption-induced structural transformations
Angew. Chem. Int. Ed., 54 :15113-15117
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The interaction of water with free Mn4O4+ clusters: Deprotonation and adsorption-induced structural transformations
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| DOI: | https://doi.org/10.1002/anie.201506294 |
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The challenge of generating iron-sulfur clusters
Int. J. Mass Spectrom., 387 :56-59
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The challenge of generating iron-sulfur clusters
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| DOI: | https://doi.org/10.1016/j.ijms.2015.07.009 |
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Reactive interaction of (sub-)monolayers and multilayers of the Ionic Liquid 1-butyl-1-methylpyrrolidinium bis(trifluoro-methylsulfonyl)imide with coadsorbed lithium on Cu(111)
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| DOI: | https://doi.org/10.1021/acs.jpcc.5b03765 |
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Low temperature CO oxidation catalyzed by free palladium clusters: Similarities and differences to Pd surfaces and supported particles
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| DOI: | https://doi.org/10.1021/cs5016222 |
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Surface-Aligned Femtochemistry: Molecular Reaction Dynamics on Oxide Surfaces
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Surface-Aligned Femtochemistry: Molecular Reaction Dynamics on Oxide Surfaces
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| DOI: | https://doi.org/10.1007/978-3-319-02051-8_10 |
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Water activation by small free ruthenium oxide clusters
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Water activation by small free ruthenium oxide clusters
Phys. Chem. Chem. Phys., 16 (48) :26578-26583
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| DOI: | 10.1039/C4CP02366H |
187.
Lang,
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The Origin of the Selectivity and Activity of Ruthenium-Cluster Catalysts for Fuel-Cell Feed-Gas Purification: A Gas-Phase Approach
Angew. Chem. Int. Ed., 53 :5467-5471
2014
The Origin of the Selectivity and Activity of Ruthenium-Cluster Catalysts for Fuel-Cell Feed-Gas Purification: A Gas-Phase Approach
Angew. Chem. Int. Ed., 53 :5467-5471
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| DOI: | https://doi.org/10.1002/anie.201310134 |
186.
Lang,
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Gas phase synthesis and structure of Wade-type ruthenium carbonyl and hydrido carbonyl clusters
J. Phys. Chem. A, 118 :8356−8359
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Gas phase synthesis and structure of Wade-type ruthenium carbonyl and hydrido carbonyl clusters
J. Phys. Chem. A, 118 :8356−8359
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| DOI: | https://doi.org/10.1021/jp501242c |
185.
Lang,
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Size-dependent self-limiting oxidation of free palladium clusters
J. Phys. Chem. A, 118 :8572-8582
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Size-dependent self-limiting oxidation of free palladium clusters
J. Phys. Chem. A, 118 :8572-8582
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| DOI: | https://doi.org/10.1021/jp502736p |
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Hartmann,
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Interaction of coadsorbed CO and deuterium on a bimetallic, Pt monolayer island modified Ru(0001) surface
J Phys Chem C, 118 (50) :28948–28958
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Interaction of coadsorbed CO and deuterium on a bimetallic, Pt monolayer island modified Ru(0001) surface
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Direct observation of magnetic metastability in individual iron nanoparticles
Phys. Rev. Lett., 112 (10) :107201
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Direct observation of magnetic metastability in individual iron nanoparticles
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| DOI: | https://doi.org/10.1103/physrevlett.112.107201 |
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Gebauer,
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Novel N, C doped Ti(IV)-oxides as Pt-free catalysts for the O2 reduction reaction
Electrochim. Acta, 146 :335–345
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Novel N, C doped Ti(IV)-oxides as Pt-free catalysts for the O2 reduction reaction
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| DOI: | https://doi.org/10.1016/j.electacta.2014.08.056 |
2013
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Activation and Catalytic Dehydrogenation of Methane on Small Pdx+ and PdxO+ Clusters
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Activation and Catalytic Dehydrogenation of Methane on Small Pdx+ and PdxO+ Clusters
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| DOI: | https://doi.org/10.1021/jp312852r |
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Lang,
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Comparison of methane activation and catalytic ethylene formation on free gold and palladium dimer cations: product binding determines the catalytic turnover
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Comparison of methane activation and catalytic ethylene formation on free gold and palladium dimer cations: product binding determines the catalytic turnover
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| DOI: | https://doi.org/10.1039/C3CY00286A |
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Lang,
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Composition and size dependent methane dehydrogenation on binary gold–palladium clusters
Int. J. Mass Spectrom., 354-355 :365-371
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Composition and size dependent methane dehydrogenation on binary gold–palladium clusters
Int. J. Mass Spectrom., 354-355 :365-371
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| DOI: | https://doi.org/10.1016/j.ijms.2013.07.014 |
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Fleischer,
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Composition dependent selectivity in the coadsorption of H2O and CO on pure and binary silver–gold clusters
Chem. Phys. Lett., 565 :74-79
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Composition dependent selectivity in the coadsorption of H2O and CO on pure and binary silver–gold clusters
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Lang,
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Dimensionality Dependent Water Splitting Mechanisms on Free Manganese Oxide Clusters
Nano Lett., 13 :5549-5555
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Dimensionality Dependent Water Splitting Mechanisms on Free Manganese Oxide Clusters
Nano Lett., 13 :5549-5555
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GAS PHASE MODEL SYSTEMS FOR CATALYSIS
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GAS PHASE MODEL SYSTEMS FOR CATALYSIS
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Is Gold Actor or Spectator in the Reaction of Small AunPdm+ clusters with O2?
Eur. Phys. J. D, 67 :19
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Is Gold Actor or Spectator in the Reaction of Small AunPdm+ clusters with O2?
Eur. Phys. J. D, 67 :19
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2012
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Reactions of Carbon Monoxide with Free Palladium Oxide Clusters: Strongly Size Dependent Competition Between Adsorption and Combustion
Phys. Chem. Chem. Phys., 14 :9364-9370
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Reactions of Carbon Monoxide with Free Palladium Oxide Clusters: Strongly Size Dependent Competition Between Adsorption and Combustion
Phys. Chem. Chem. Phys., 14 :9364-9370
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The adsorption of oxygen and coadsorption of CO and oxygen on structurally well-defined PdAg surface alloys
ChemPhysChem, 13 (15) :3516–25
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The adsorption of oxygen and coadsorption of CO and oxygen on structurally well-defined PdAg surface alloys
ChemPhysChem, 13 (15) :3516–25
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| DOI: | https://doi.org/10.1002/cphc.201200477 |
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Vaida,
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Surface-aligned femtochemistry: Photoinduced reaction dynamics of CH3I and CH3Br on MgO(100)
Faraday Discuss., 157 :437-449
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Surface-aligned femtochemistry: Photoinduced reaction dynamics of CH3I and CH3Br on MgO(100)
Faraday Discuss., 157 :437-449
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| DOI: | https://doi.org/10.1039/C2FD20104F |
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Structure and reactivity of small particles: From clusters to aerosols
Phys. Chem. Chem. Phys., 14 :9252
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Structure and reactivity of small particles: From clusters to aerosols
Phys. Chem. Chem. Phys., 14 :9252
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| DOI: | https://doi.org/10.1039/C2CP90066A |
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Interaction of CO and deuterium with bimetallic, monolayer Pt island / film covered Ru(0001) surfaces
Phys. Chem. Chem. Phys., 14 (31) :10919–10934
2012
Interaction of CO and deuterium with bimetallic, monolayer Pt island / film covered Ru(0001) surfaces
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| DOI: | https://doi.org/10.1039/c2cp41434a |
169.
Lang,
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J. Am. Chem. Soc., 134 :20654-20659
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Pd6O4+: An Oxidation Resistant yet Highly Catalytically Active Nano-Oxide Cluster
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Kinetic study of the reaction of vanadium and vanadium–titanium oxide cluster anions with SO2
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Kinetic study of the reaction of vanadium and vanadium–titanium oxide cluster anions with SO2
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Eyrich,
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J Phys Chem C, 116 (20) :11154–11165
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Interaction of CO with structurally well-defined monolayer PtAu/Pt(111) surface alloys
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Gas phase metal cluster model systems for heterogeneous catalysis
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Phys. Chem. Chem. Phys., 14 :9255-9269
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| DOI: | https://doi.org/10.1039/C2CP40660H |
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Physical Chemistry Chemical Physics, 14 (26) :9350-9358
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Carbon monoxide adsorption on neutral and cationic vanadium doped gold clusters
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2011
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Lang,
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Methane Activation and Partial Oxidation on Free Gold and Palladium Clusters: Mechanistic Insights into Cooperative and Highly Selective Cluster Catalysis
Faraday Disc., 152 :337-351
2011
Methane Activation and Partial Oxidation on Free Gold and Palladium Clusters: Mechanistic Insights into Cooperative and Highly Selective Cluster Catalysis
Faraday Disc., 152 :337-351
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| DOI: | https://doi.org/10.1039/C1FD00025J |
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Popolan,
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Tuning Cluster Reactivity by Charge State and Composition: Experimental and Theoretical Investigation of CO Binding Energies to AgnAum+/− (n + m = 3)
J. Phys. Chem. A, 115 :951
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Tuning Cluster Reactivity by Charge State and Composition: Experimental and Theoretical Investigation of CO Binding Energies to AgnAum+/− (n + m = 3)
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2011
The interaction of CO with PdAg/Pd(111) surface alloys-a case study of ensemble effects on a bimetallic surface
Phys. Chem. Chem. Phys., 13 (22) :10741–10754
2011
| DOI: | https://doi.org/10.1039/C1CP00009H |
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Temperature-tuneable selective methane catalysis on Au2+: From cryogenic partial oxidation yielding formaldehyde to cold ethylene production
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Nanostructured, mesoporous Au/TiO2 model catalysts – structure, stability and catalytic properties
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2011
Nanostructured, mesoporous Au/TiO2 model catalysts – structure, stability and catalytic properties
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2011
Structure, morphology, and magnetic properties of Fe nanoparticles deposited onto single-crystalline surfaces
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Interaction of gold and silver cluster cations with CH3Br: thermal and photoinduced reaction pathways
Eur. Phys. J. D, 63 :251
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Interaction of gold and silver cluster cations with CH3Br: thermal and photoinduced reaction pathways
Eur. Phys. J. D, 63 :251
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| DOI: | https://doi.org/10.1140/epjd/e2010-10588-9 |
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Communication: CO oxidation by silver and gold cluster cations: Identification of different active oxygen species
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Communication: CO oxidation by silver and gold cluster cations: Identification of different active oxygen species
J. Chem. Phys., 134 (9) :091102
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| DOI: | 10.1063/1.3563631 |
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Cage Structure Formation of Singly Doped Aluminum Cluster Cations AlnTM+ (TM = Ti, V, Cr)
Journal of The American Society for Mass Spectrometry, 22 (9) :1508
2011
Cage Structure Formation of Singly Doped Aluminum Cluster Cations AlnTM+ (TM = Ti, V, Cr)
Journal of The American Society for Mass Spectrometry, 22 (9) :1508
2011
| DOI: | 10.1007/s13361-011-0181-1 |