Publikationen von Professor Dr. Behm
2022
681.
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
Publisher: Wiley-VCH
A combined XPS and computational study of the chemical reduction of BMP-TFSI by lithium
Batteries & Supercaps, 12 (5) :e202200307
2022
Publisher: Wiley-VCH
| DOI: | 10.1002/batt.202200307 |
680.
Schleper,
A. L.;
Hillebrandt,
S.;
Bannwarth,
C.;
Mischok,
A.;
Kwon,
S.;
Buchner,
F.;
Tenopala-Carmona,
F.;
Behm,
R. J.;
Goll,
F. D.;
Welscher,
P. J.;
Usselmann,
M.;
Ziener,
U.;
Gather,
M. C.;
Kuehne,
A. J. C.
Influence of regioisomerism in bis(terpyridine) based exciplexes with delayed fluorescence
Journal of Materials Chemistry C, 10 (19) :7699-7706
2022
Influence of regioisomerism in bis(terpyridine) based exciplexes with delayed fluorescence
Journal of Materials Chemistry C, 10 (19) :7699-7706
2022
| DOI: | 10.1039/D2TC00800A |
679.
Amici,
J.;
Asinari,
P.;
Ayerbe,
E.;
Barboux,
P.;
Bayle-Guillemaud,
P.;
Behm,
R. J.;
Berecibar,
M.;
Berg,
E.;
Bhowmik,
A.;
Bodoardo,
S.;
Castelli,
I. E.;
Cekic-Laskovic,
I.;
Christensen,
R.;
Clark,
S.;
Diehm,
R.;
Dominko,
R.;
Fichtner,
M.;
Franco,
A. A.;
Grimaud,
A.;
Guillet,
N.;
Hahlin,
M.;
Hartmann,
S.;
Heiries,
V.;
Hermansson,
K.;
Heuer,
A.;
Jana,
S.;
Jabbour,
L.;
Kallo,
J.;
Latz,
A.;
Lorrmann,
H.;
Løvvik,
O. M.;
Lyonnard,
S.;
Meeus,
M.;
Paillard,
E.;
Perraud,
S.;
Placke,
T.;
Punckt,
C.;
Raccurt,
O.;
Ruhland,
J.;
Sheridan,
E.;
Stein,
H.;
Tarascon,
J.-M.;
Trapp,
V.;
Vegge,
T.;
Weil,
M.;
Wenzel,
W.;
Winter,
M.;
Wolf,
A.;
Edström,
K.
A Roadmap for Transforming Research to Invent the Batteries of the Future Designed within the European Large Scale Research Initiative BATTERY 2030+
Advanced Energy Materials, 12 (17) :2102785
2022
A Roadmap for Transforming Research to Invent the Batteries of the Future Designed within the European Large Scale Research Initiative BATTERY 2030+
Advanced Energy Materials, 12 (17) :2102785
2022
| DOI: | https://doi.org/10.1002/aenm.202102785 |
678.
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 |
677.
Roy,
A.;
Bhagavathi Parambath,
V.;
Diemant,
T.;
Neusser,
G.;
Kranz,
C.;
Behm,
R. J.;
Li,
Z.;
Zhao-Karger,
Z.;
Fichtner,
M.
Investigation of the Anode-Electrolyte Interface in a Magnesium Full-Cell with Fluorinated Alkoxyborate-Based Electrolyte
Batteries & Supercaps, 5 (4) :e202100305
2022
Investigation of the Anode-Electrolyte Interface in a Magnesium Full-Cell with Fluorinated Alkoxyborate-Based Electrolyte
Batteries & Supercaps, 5 (4) :e202100305
2022
| DOI: | https://doi.org/10.1002/batt.202100305 |
676.
Buchner,
F.;
Forster-Tonigold,
K.;
Bolter,
T.;
Rampf,
A.;
Klein,
J.;
Groß,
A.;
Behm,
R. J.
Interaction of Mg with the ionic liquid 1-butyl-1-methylpyrrolidinium bis(trifluoromethylsulfonyl)imide—An experimental and computational model study of the electrode–electrolyte interface in post-lithium batteries
Journal of Vacuum Science & Technology A, 40 (2) :023204
2022
Interaction of Mg with the ionic liquid 1-butyl-1-methylpyrrolidinium bis(trifluoromethylsulfonyl)imide—An experimental and computational model study of the electrode–electrolyte interface in post-lithium batteries
Journal of Vacuum Science & Technology A, 40 (2) :023204
2022
| DOI: | 10.1116/6.0001658 |
675.
Mancera,
L. A.;
Diemant,
T.;
Groß,
A.;
Behm,
R. J.
Molecular and Dissociative Hydrogen Adsorption on Bimetallic PdAg/Pd(111) Surface Alloys: A Combined Experimental and Theoretical Study
The Journal of Physical Chemistry C, 126 (6) :3060-3077
2022
Molecular and Dissociative Hydrogen Adsorption on Bimetallic PdAg/Pd(111) Surface Alloys: A Combined Experimental and Theoretical Study
The Journal of Physical Chemistry C, 126 (6) :3060-3077
2022
| DOI: | 10.1021/acs.jpcc.1c10070 |
674.
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 |
673.
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 |
672.
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 |
671.
Eisenmann,
T.;
Asenbauer,
J.;
Rezvani,
S. J.;
Diemant,
T.;
Behm,
R. J.;
Geiger,
D.;
Kaiser,
U.;
Passerini,
S.;
Bresser,
D.
Correction: Impact of the Transition Metal Dopant in Zinc Oxide Lithium-Ion Anodes on the Solid Electrolyte Interphase Formation
Small Methods, 6 (2) :2101564
2022
Correction: Impact of the Transition Metal Dopant in Zinc Oxide Lithium-Ion Anodes on the Solid Electrolyte Interphase Formation
Small Methods, 6 (2) :2101564
2022
| DOI: | https://doi.org/10.1002/smtd.202101564 |
670.
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 |
2021
669.
Eisenmann,
T.;
Asenbauer,
J.;
Rezvani,
S. J.;
Diemant,
T.;
Behm,
R. J.;
Kaiser,
U.;
Passerini,
S.;
Bresser,
D.
Impact of the Transition Metal Dopant in Zinc Oxide Lithium-Ion Anodes on the Solid Electrolyte Interphase Formation
Small Methods, 5 (4) :2001021
01 2021
Impact of the Transition Metal Dopant in Zinc Oxide Lithium-Ion Anodes on the Solid Electrolyte Interphase Formation
Small Methods, 5 (4) :2001021
01 2021
| DOI: | 10.1002/smtd.202001021 |
668.
Chen,
S.;
Abdel-Mageed,
A. M.;
Hauble,
A.;
Ishida,
T.;
Murayama,
T.;
Parlinska-Wojtan,
M.;
Behm,
R. J.
Performance of Au/ZnO catalysts in CO2 reduction to methanol: Varying the Au loading / Au particle size
Applied Catalysis A: General, 624 :118318
2021
Performance of Au/ZnO catalysts in CO2 reduction to methanol: Varying the Au loading / Au particle size
Applied Catalysis A: General, 624 :118318
2021
| DOI: | https://doi.org/10.1016/j.apcata.2021.118318 |
667.
Ma,
Y.;
Diemant,
T.;
Cao,
K.;
Liu,
X.;
Kaiser,
U.;
Behm,
R. J.;
Varzi,
A.;
Passerini,
S.
Unveiling the Intricate Intercalation Mechanism in Manganese Sesquioxide as Positive Electrode in Aqueous Zn-Metal Battery
Advanced Energy Materials, 11 (35) :2100962
2021
Unveiling the Intricate Intercalation Mechanism in Manganese Sesquioxide as Positive Electrode in Aqueous Zn-Metal Battery
Advanced Energy Materials, 11 (35) :2100962
2021
| DOI: | https://doi.org/10.1002/aenm.202100962 |
666.
Buchner,
F.;
Fuchs,
S.;
Behm,
R. J.
UHV preparation and electrochemical/-catalytic properties of well-defined Co– and Fe-containing unary and binary oxide model cathodes for the oxygen reduction and oxygen evolution reaction in Zn-air batteries
Journal of Electroanalytical Chemistry, 896 :115497
2021
UHV preparation and electrochemical/-catalytic properties of well-defined Co– and Fe-containing unary and binary oxide model cathodes for the oxygen reduction and oxygen evolution reaction in Zn-air batteries
Journal of Electroanalytical Chemistry, 896 :115497
2021
| DOI: | https://doi.org/10.1016/j.jelechem.2021.115497 |
665.
Kazzazi,
A.;
Bresser,
D.;
Kuenzel,
M.;
Hekmatfar,
M.;
Schnaidt,
J.;
Jusys,
Z.;
Diemant,
T.;
Behm,
R. J.;
Copley,
M.;
Maranski,
K.;
Cookson,
J.;
Meatza,
I.;
Axmann,
P.;
Wohlfahrt-Mehrens,
M.;
Passerini,
S.
Synergistic electrolyte additives for enhancing the performance of high-voltage lithium-ion cathodes in half-cells and full-cells
J Power Sources, 482 :228975
2021
Synergistic electrolyte additives for enhancing the performance of high-voltage lithium-ion cathodes in half-cells and full-cells
J Power Sources, 482 :228975
2021
| DOI: | https://doi.org/10.1016/j.jpowsour.2020.228975 |
664.
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 |
663.
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 |
662.
Li,
H.;
Zhang,
H.;
Diemant,
T.;
Behm,
R. J.;
Kaiser,
U.;
Varzi,
A.;
Passerini,
S.
Reversible Copper Sulfide Conversion in Nonflammable Trimethyl Phosphate Electrolytes for Safe Sodium-Ion Batteries
Small Structures, 2 (8) :2100035
2021
Reversible Copper Sulfide Conversion in Nonflammable Trimethyl Phosphate Electrolytes for Safe Sodium-Ion Batteries
Small Structures, 2 (8) :2100035
2021
| DOI: | 10.1002/sstr.202100035 |
661.
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 |
660.
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 |
659.
Weber,
I.;
Ingenmey,
J.;
Schnaidt,
J.;
Kirchner,
B.;
Behm,
R. J.
Influence of Complexing Additives on the Reversible Deposition/Dissolution of Magnesium in an Ionic Liquid
ChemElectroChem, 8 (2) :390-402
2021
Influence of Complexing Additives on the Reversible Deposition/Dissolution of Magnesium in an Ionic Liquid
ChemElectroChem, 8 (2) :390-402
2021
| DOI: | 10.1002/celc.202001488 |
658.
Ma,
Y.;
Diemant,
T.;
Cao,
K.;
Kaiser,
U.;
Behm,
R. J.;
Varzi,
A.;
Passerini,
S.
Embedding Heterostructured α-MnS/MnO Nanoparticles in S-Doped Carbonaceous Porous Framework as High-Performance Anode for Lithium-Ion Batteries
ChemElectroChem, 8 (5) :918-927
2021
Embedding Heterostructured α-MnS/MnO Nanoparticles in S-Doped Carbonaceous Porous Framework as High-Performance Anode for Lithium-Ion Batteries
ChemElectroChem, 8 (5) :918-927
2021
| DOI: | https://doi.org/10.1002/celc.202100110 |
657.
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 |
656.
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 |
655.
Chen,
S.;
Abdel-Mageed,
A. M.;
Mochizuki,
C.;
Ishida,
T.;
Murayama,
T.;
Rabeah,
J.;
Parlinska-Wojtan,
M.;
Brückner,
A.;
Behm,
R. J.
Controlling the O-Vacancy Formation and Performance of Au/ZnO Catalysts in CO2 Reduction to Methanol by the ZnO Particle Size
ACS Catalysis, 11 (15) :9022-9033
2021
Controlling the O-Vacancy Formation and Performance of Au/ZnO Catalysts in CO2 Reduction to Methanol by the ZnO Particle Size
ACS Catalysis, 11 (15) :9022-9033
2021
| DOI: | 10.1021/acscatal.1c01415 |
654.
Wang,
H.;
Jusys,
Z.;
Behm,
R. J.;
Abruna,
H. D.
A channel flow cell with double disk electrodes for oxygen electroreduction study at elevated temperatures and pressures: Theory
Journal of Electroanalytical Chemistry, 896 :115251
2021
A channel flow cell with double disk electrodes for oxygen electroreduction study at elevated temperatures and pressures: Theory
Journal of Electroanalytical Chemistry, 896 :115251
2021
| DOI: | https://doi.org/10.1016/j.jelechem.2021.115251 |
653.
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 |
2020
652.
Weber,
I.;
Wang,
B.;
Bodirsky,
C.;
Chakraborty,
M.;
Wachtler,
M.;
Diemant,
T.;
Schnaidt,
J.;
Behm,
R. J.
Model Studies on Solid Electrolyte Interphase Formation on Graphite Electrodes in Ethylene Carbonate and Dimethyl Carbonate II: Graphite Powder Electrodes
Chemelectrochem, 7 (23) :4794–4809
2020
Model Studies on Solid Electrolyte Interphase Formation on Graphite Electrodes in Ethylene Carbonate and Dimethyl Carbonate II: Graphite Powder Electrodes
Chemelectrochem, 7 (23) :4794–4809
2020
| DOI: | https://doi.org/10.1002/celc.202001328 |
651.
Klein,
J.;
Chesnyak,
V.;
Löw,
M.;
Schilling,
M.;
Engstfeld,
A. K.;
Behm,
R. J.
Selective Modification and Probing of the Electrocatalytic Activity of Step Sites
J. Am. Chem. Soc., 142 (3) :1278–1286
2020
Selective Modification and Probing of the Electrocatalytic Activity of Step Sites
J. Am. Chem. Soc., 142 (3) :1278–1286
2020
| DOI: | https://doi.org/10.1021/jacs.9b10201 |
650.
Klein,
J.;
Engstfeld,
A. K.;
Brimaud,
S.;
Behm,
R. J.
Pt nanocluster size effects in the hydrogen evolution reaction: approaching the theoretical maximum activity
Phys. Chem. Chem. Phys., 22 (34) :19059–19068
2020
Pt nanocluster size effects in the hydrogen evolution reaction: approaching the theoretical maximum activity
Phys. Chem. Chem. Phys., 22 (34) :19059–19068
2020
| DOI: | https://doi.org/10.1039/d0cp02793f |
649.
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 |
648.
Li,
Z.;
Vinayan,
B. P.;
Diemant,
T.;
Behm,
R. J.;
Fichtner,
M.;
Zhao-Karger,
Z.
Rechargeable Calcium–Sulfur Batteries Enabled by an Efficient Borate-Based Electrolyte
Small, 16 (39) :2001806
2020
Rechargeable Calcium–Sulfur Batteries Enabled by an Efficient Borate-Based Electrolyte
Small, 16 (39) :2001806
2020
| DOI: | 10.1002/smll.202001806 |
647.
Wu,
F.;
Kim,
G.-T.;
Diemant,
T.;
Kuenzel,
M.;
Schür,
A. R.;
Gao,
X.;
Qin,
B.;
Alwast,
D.;
Jusys,
Z.;
Behm,
R. J.;
Kaiser,
U.;
Passerini,
S.
Reducing Capacity and Voltage Decay of Co-Free Li1.2Ni0.2Mn0.6O2 as Positive Electrode Material for Lithium Batteries Employing an Ionic Liquid-Based Electrolyte
Advanced Energy Materials, 10 (34) :2001830
2020
Reducing Capacity and Voltage Decay of Co-Free Li1.2Ni0.2Mn0.6O2 as Positive Electrode Material for Lithium Batteries Employing an Ionic Liquid-Based Electrolyte
Advanced Energy Materials, 10 (34) :2001830
2020
| DOI: | 10.1002/aenm.202001830 |
646.
Weber,
I.;
Kim,
J.;
Buchner,
F.;
Schnaidt,
J.;
Behm,
R. J.
Surface Science and Electrochemical Model Studies on the Interaction of Graphite and Li-Containing Ionic Liquids
ChemSusChem, 13 (10) :2589-2601
2020
Surface Science and Electrochemical Model Studies on the Interaction of Graphite and Li-Containing Ionic Liquids
ChemSusChem, 13 (10) :2589-2601
2020
| DOI: | 10.1002/cssc.202000495 |
645.
Eifert,
L.;
Jusys,
Z.;
Behm,
R. J.;
Zeis,
R.
Side reactions and stability of pre-treated carbon felt electrodes for vanadium redox flow batteries: A DEMS study
Carbon, 158 :580–587
2020
Side reactions and stability of pre-treated carbon felt electrodes for vanadium redox flow batteries: A DEMS study
Carbon, 158 :580–587
2020
| DOI: | https://doi.org/10.1016/j.carbon.2019.11.029 |
644.
Mandl,
M.;
Becherer,
J.;
Kramer,
D.;
Monig,
R.;
Diemant,
T.;
Behm,
R. J.;
Hahn,
M.;
Bose,
O.;
Danzer,
M. A.
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Insights into the electrochemical processes of rechargeable magnesium-sulfur batteries with a new cathode design
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Exploring SnS nanoparticles interpenetrated with high concentration nitrogen-doped-carbon as anodes for sodium ion batteries
Electrochim. Acta, 296 :806–813
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Exploring SnS nanoparticles interpenetrated with high concentration nitrogen-doped-carbon as anodes for sodium ion batteries
Electrochim. Acta, 296 :806–813
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Highly Active and Stable Single-Atom Cu Catalysts Supported by a Metal-Organic Framework
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Highly Active and Stable Single-Atom Cu Catalysts Supported by a Metal-Organic Framework
J. Am. Chem. Soc., 141 (13) :5201–5210
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Electrochim. Acta, 299 :372–377
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How many electrons are transferred during the electrochemical O-2 reduction in a Mg2+-free/Mg2+-containing ionic liquid?
Electrochim. Acta, 299 :372–377
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Impact of the electrolyte salt anion on the solid electrolyte interphase formation in sodium ion batteries
Nano Energy, 55 :327–340
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Impact of the electrolyte salt anion on the solid electrolyte interphase formation in sodium ion batteries
Nano Energy, 55 :327–340
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598.
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Influence of CO on the Activation, O-Vacancy Formation, and Performance of Au/ZnO Catalysts in CO2 Hydrogenation to Methanol
J. Phys. Chem. Lett., 10 (13) :3645–3653
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Influence of CO on the Activation, O-Vacancy Formation, and Performance of Au/ZnO Catalysts in CO2 Hydrogenation to Methanol
J. Phys. Chem. Lett., 10 (13) :3645–3653
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Energy Storage Materials, 21 :115–123
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Hetero-layered MoS2/C composites enabling ultrafast and durable Na storage
Energy Storage Materials, 21 :115–123
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Selective Binding of Inhibitor-Assisted Surface-Imprinted Core/Shell Microbeads in Protein Mixtures
Chemistryselect, 3 (16) :4277–4282
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Selective Binding of Inhibitor-Assisted Surface-Imprinted Core/Shell Microbeads in Protein Mixtures
Chemistryselect, 3 (16) :4277–4282
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On the Role of the Support in Pt Anode Catalyst Degradation under Simulated H-2 Fuel Starvation Conditions
J. Electrochem. Soc., 165 (15) :J3342
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On the Role of the Support in Pt Anode Catalyst Degradation under Simulated H-2 Fuel Starvation Conditions
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Oxygen Adsorption and Low-Temperature CO Oxidation on a Nanoporous Au Catalyst: Reaction Mechanism and Foreign Metal Effects
Top Catal, 61 (5-6, SI) :446–461
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Oxygen Adsorption and Low-Temperature CO Oxidation on a Nanoporous Au Catalyst: Reaction Mechanism and Foreign Metal Effects
Top Catal, 61 (5-6, SI) :446–461
2018
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J Power Sources, 400 :580–591
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Oxygen reduction reaction activity and long-term stability of platinum nanoparticles supported on titania and titania-carbon nanotube composites
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Partial dissociation of water on Ru(0001) at low temperatures - Adsorption, structure formation and hydrogen passivation effects
Surf. Sci., 674 :32–39
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Partial dissociation of water on Ru(0001) at low temperatures - Adsorption, structure formation and hydrogen passivation effects
Surf. Sci., 674 :32–39
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Performance Improvement of V-Fe-Cr-Ti Solid State Hydrogen Storage Materials in Impure Hydrogen Gas
Acs Appl Mater Inter, 10 (2) :1662–1671
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Performance Improvement of V-Fe-Cr-Ti Solid State Hydrogen Storage Materials in Impure Hydrogen Gas
Acs Appl Mater Inter, 10 (2) :1662–1671
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Structure formation and surface chemistry of ionic liquids on model electrode surfaces — model studies for the electrode | electrolyte interface in Li-ion batteries
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Selective CO Methanation on Highly Active Ru/TiO2 Catalysts: Identifying the Physical Origin of the Observed Activation/Deactivation and Loss in Selectivity
Acs Catal, 8 (6) :5399–5414
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Selective CO Methanation on Highly Active Ru/TiO2 Catalysts: Identifying the Physical Origin of the Observed Activation/Deactivation and Loss in Selectivity
Acs Catal, 8 (6) :5399–5414
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Spectroscopic investigations on the origin of the improved performance of composites of nanoparticles/graphene sheets as anodes for lithium ion batteries
Carbon, 127 :47–56
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Spectroscopic investigations on the origin of the improved performance of composites of nanoparticles/graphene sheets as anodes for lithium ion batteries
Carbon, 127 :47–56
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Stability and ORR performance of a well-defined bimetallic Ag70Pt30/Pt(111) monolayer surface alloy electrode - Probing the de-alloying at an atomic scale
Electrochim. Acta, 259 :762–771
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Stability and ORR performance of a well-defined bimetallic Ag70Pt30/Pt(111) monolayer surface alloy electrode - Probing the de-alloying at an atomic scale
Electrochim. Acta, 259 :762–771
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Temperature-dependent insertion and adsorption of lithium on spinel Li4Ti5O12(111) thin films - an angle-resolved XPS study
Phys. Chem. Chem. Phys., 20 (27) :18319–18327
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Temperature-dependent insertion and adsorption of lithium on spinel Li4Ti5O12(111) thin films - an angle-resolved XPS study
Phys. Chem. Chem. Phys., 20 (27) :18319–18327
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The performance of structurally well-defined AgxPt1-x/Pt(111) surface alloys in the oxygen reduction reaction - An atomic-scale picture
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The performance of structurally well-defined AgxPt1-x/Pt(111) surface alloys in the oxygen reduction reaction - An atomic-scale picture
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Toward Highly Reversible Magnesium-Sulfur Batteries with Efficient and Practical Mg[B(hfip)(4)](2) Electrolyte
Acs Energy Letters, 3 (8) :2005–2013
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Toward Highly Reversible Magnesium-Sulfur Batteries with Efficient and Practical Mg[B(hfip)(4)](2) Electrolyte
Acs Energy Letters, 3 (8) :2005–2013
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Microscopic Electrode Processes in the Four-Electron Oxygen Reduction on Highly Active Carbon-Based Electrocatalysts
Acs Catal, 8 (9) :8162–8176
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Microscopic Electrode Processes in the Four-Electron Oxygen Reduction on Highly Active Carbon-Based Electrocatalysts
Acs Catal, 8 (9) :8162–8176
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MnPO4-Coated Li(Ni0.4Co0.2Mn0.4)O-2 for Lithium(-Ion) Batteries with Outstanding Cycling Stability and Enhanced Lithiation Kinetics
Adv. Energy Mater., 8 (27)
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MnPO4-Coated Li(Ni0.4Co0.2Mn0.4)O-2 for Lithium(-Ion) Batteries with Outstanding Cycling Stability and Enhanced Lithiation Kinetics
Adv. Energy Mater., 8 (27)
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