Publikationen von Professor Dr. Behm
2021
665.
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 |
664.
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 |
663.
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 |
662.
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 |
661.
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 |
660.
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 |
659.
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 |
658.
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 |
657.
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 |
656.
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 |
655.
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 |
654.
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 |
653.
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 |
652.
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 |
651.
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 |
650.
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
649.
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 |
648.
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 |
647.
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 |
646.
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 |
645.
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 |
644.
Chang,
J. H.;
Baur,
C.;
Ateba,
J.-M.;
Arcon,
D.;
Mali,
G.;
Alwast,
D.;
Behm,
R. J.;
Fichtner,
M.;
Vegge,
T.;
Lastra,
J. M. G.
Superoxide formation in Li2VO2F cathode material - a combined computational and experimental investigation of anionic redox activity
J. Mater. Chem.a, 8 (32) :16551–16559
2020
Superoxide formation in Li2VO2F cathode material - a combined computational and experimental investigation of anionic redox activity
J. Mater. Chem.a, 8 (32) :16551–16559
2020
| DOI: | https://doi.org/10.1039/d0ta06119k |
643.
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 |
642.
Mandl,
M.;
Becherer,
J.;
Kramer,
D.;
Monig,
R.;
Diemant,
T.;
Behm,
R. J.;
Hahn,
M.;
Bose,
O.;
Danzer,
M. A.
Sodium metal anodes: Deposition and dissolution behaviour and SEI formation
Electrochim. Acta, 354 :136698
2020
Sodium metal anodes: Deposition and dissolution behaviour and SEI formation
Electrochim. Acta, 354 :136698
2020
| DOI: | https://doi.org/10.1016/j.electacta.2020.136698 |
641.
Zhang,
H.;
Diemant,
T.;
Qin,
B.;
Li,
H.;
Behm,
R. J.;
Passerini,
S.
Solvent-Dictated Sodium Sulfur Redox Reactions: Investigation of Carbonate and Ether Electrolytes
Energies, 13 (4) :836
2020
Solvent-Dictated Sodium Sulfur Redox Reactions: Investigation of Carbonate and Ether Electrolytes
Energies, 13 (4) :836
2020
| DOI: | https://doi.org/10.3390/en13040836 |
640.
Wassner,
M.;
Eckardt,
M.;
Reyer,
A.;
Diemant,
T.;
Elsaesser,
M. S.;
Behm,
R. J.;
Huesing,
N.
Synthesis of amorphous and graphitized porous nitrogen-doped carbon spheres as oxygen reduction reaction catalysts
Beilstein J. Nanotechnol., 11 :1–15
2020
Synthesis of amorphous and graphitized porous nitrogen-doped carbon spheres as oxygen reduction reaction catalysts
Beilstein J. Nanotechnol., 11 :1–15
2020
| DOI: | https://doi.org/10.3762/bjnano.11.1 |
639.
Cambaz,
M. A.;
Urban,
A.;
Pervez,
S. A.;
Gesswein,
H.;
Schiele,
A.;
Guda,
A. A.;
Bugaev,
A. L.;
Mazilkin,
A.;
Diemant,
T.;
Behm,
R. J.;
Brezesinski,
T.;
Fichtner,
M.
Understanding the Origin of Higher Capacity for Ni-Based Disordered Rock-Salt Cathodes
Chem. Mater., 32 (8) :3447–3461
2020
Understanding the Origin of Higher Capacity for Ni-Based Disordered Rock-Salt Cathodes
Chem. Mater., 32 (8) :3447–3461
2020
| DOI: | https://doi.org/10.1021/acs.chemmater.9b05285 |
638.
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 |
637.
Buchner,
F.;
Eckardt,
M.;
Böhler,
T.;
Kim,
J.;
Gerlach,
J.;
Schnaidt,
J.;
Behm,
R. J.
Oxygen Reduction and Evolution on Ni-modified Co3O4(1 1 1) Cathodes for Zn–Air Batteries: A Combined Surface Science and Electrochemical Model Study
ChemSusChem, 13 (12) :3199-3211
2020
Oxygen Reduction and Evolution on Ni-modified Co3O4(1 1 1) Cathodes for Zn–Air Batteries: A Combined Surface Science and Electrochemical Model Study
ChemSusChem, 13 (12) :3199-3211
2020
| DOI: | 10.1002/cssc.202000503 |
636.
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 |
635.
Li,
H.;
Ma,
Y.;
Zhang,
H.;
Diemant,
T.;
Behm,
R. J.;
Varzi,
A.;
Passerini,
S.
Metal–Organic Framework Derived Fe7S8 Nanoparticles Embedded in Heteroatom-Doped Carbon with Lithium and Sodium Storage Capability
Small Methods, 4 (12) :2000637
2020
Metal–Organic Framework Derived Fe7S8 Nanoparticles Embedded in Heteroatom-Doped Carbon with Lithium and Sodium Storage Capability
Small Methods, 4 (12) :2000637
2020
| DOI: | 10.1002/smtd.202000637 |
634.
Abdel-Mageed,
A. M.;
Wiese,
K.;
Parlinska-Wojtan,
M.;
Rabeah,
J.;
Brueckner,
A.;
Behm,
R. J.
Encapsulation of Ru nanoparticles: Modifying the reactivity toward CO and CO2 methanation on highly active Ru/TiO2 catalysts
Appl Catal B-environ, 270 :118846
2020
Encapsulation of Ru nanoparticles: Modifying the reactivity toward CO and CO2 methanation on highly active Ru/TiO2 catalysts
Appl Catal B-environ, 270 :118846
2020
| DOI: | https://doi.org/10.1016/j.apcatb.2020.118846 |
633.
Parambath,
V. B.;
Zhao-Karger,
Z.;
Diemant,
T.;
Jaeckle,
M.;
Li,
Z.;
Scherer,
T.;
Groß,
A.;
Behm,
R. J.;
Fichtner,
M.
Investigation on the formation of Mg metal anode/electrolyte interfaces in Mg/S batteries with electrolyte additives
J. Mater. Chem.a, 8 (43) :22998–23010
2020
Investigation on the formation of Mg metal anode/electrolyte interfaces in Mg/S batteries with electrolyte additives
J. Mater. Chem.a, 8 (43) :22998–23010
2020
| DOI: | https://doi.org/10.1039/d0ta05762b |
632.
Clark,
S.;
Borchers,
N.;
Jusys,
Z.;
Behm,
R. J.;
Horstmann,
B.
Aqueous Zinc Batteries
Page 1-54
Book Section
2020
1-54
Aqueous Zinc Batteries
Page 1-54
Book Section
2020
1-54
| DOI: | 10.1002/9783527610426.bard110022 |
631.
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 |
630.
Rezvani,
A.;
Abdel-Mageed,
A. M.;
Ishida,
T.;
Murayama,
T.;
Parlinska-Wojtan,
M.;
Behm,
R. J.
CO2 Reduction to Methanol on Au/CeO2 Catalysts: Mechanistic Insights from Activation/Deactivation and SSITKA Measurements
Acs Catal, 10 (6) :3580–3594
2020
CO2 Reduction to Methanol on Au/CeO2 Catalysts: Mechanistic Insights from Activation/Deactivation and SSITKA Measurements
Acs Catal, 10 (6) :3580–3594
2020
| DOI: | https://doi.org/10.1021/acscatal.9b04655 |
629.
Pervez,
S. A.;
Vinayan,
B. P.;
Cambaz,
M. A.;
Melinte,
G.;
Diemant,
T.;
Braun,
T.;
Karkera,
G.;
Behm,
R. J.;
Fichtner,
M.
Electrochemical and compositional characterization of solid interphase layers in an interface-modified solid-state Li-sulfur battery
J. Mater. Chem.a, 8 (32) :16451–16462
2020
Electrochemical and compositional characterization of solid interphase layers in an interface-modified solid-state Li-sulfur battery
J. Mater. Chem.a, 8 (32) :16451–16462
2020
| DOI: | https://doi.org/10.1039/d0ta05014h |
628.
Scott,
S. B.;
Engstfeld,
A. K.;
Jusys,
Z.;
Hochfilzer,
D.;
Knosgaard,
N.;
Trimarco,
D. B.;
Vesborg,
P. C. K.;
Behm,
R. J.;
Chorkendorff,
I.
Anodic molecular hydrogen formation on Ru and Cu electrodes
Catal Sci Technol, 10 (20) :6870–6878
2020
Anodic molecular hydrogen formation on Ru and Cu electrodes
Catal Sci Technol, 10 (20) :6870–6878
2020
| DOI: | https://doi.org/10.1039/d0cy01213k |
627.
Han,
J.;
Zarrabeitia,
M.;
Mariani,
A.;
Jusys,
Z.;
Hekmatfar,
M.;
Zhang,
H.;
Kaiser,
U.;
Behm,
R. J.;
Varzi,
A.;
Passerini,
S.
Halide-free water-in-salt electrolytes for stable aqueous sodium-ion batteries
Nano Energy, 77
2020
Halide-free water-in-salt electrolytes for stable aqueous sodium-ion batteries
Nano Energy, 77
2020
| DOI: | https://doi.org/10.1016/j.nanoen.2020.105176 |
626.
Huber,
F.;
Chakrabortty,
S.;
Veith,
L.;
Mezger,
M.;
Kirste,
L.;
Fuchs,
T.;
Diemant,
T.;
Behm,
R. J.;
Thonke,
K.;
Scholz,
F.
Impact of Surface Chemistry and Doping Concentrations on Biofunctionalization of GaN/Ga-In-N Quantum Wells
Sens., 20 (15)
2020
Impact of Surface Chemistry and Doping Concentrations on Biofunctionalization of GaN/Ga-In-N Quantum Wells
Sens., 20 (15)
2020
| DOI: | https://doi.org/10.3390/s20154179 |
625.
Eckardt,
M.;
Alwast,
D.;
Schnaidt,
J.;
Behm,
R. J.
Influence of Additives on the Reversible Oxygen Reduction Reaction/Oxygen Evolution Reaction in the Mg2+-Containing Ionic Liquid N-Butyl-N-Methylpyrrolidinium Bis(Trifluoromethanesulfonyl)imide
ChemSusChem, 13 (15) :3919-3927
2020
Influence of Additives on the Reversible Oxygen Reduction Reaction/Oxygen Evolution Reaction in the Mg2+-Containing Ionic Liquid N-Butyl-N-Methylpyrrolidinium Bis(Trifluoromethanesulfonyl)imide
ChemSusChem, 13 (15) :3919-3927
2020
| DOI: | 10.1002/cssc.202000672 |
624.
Kim,
J.;
Buchner,
F.;
Behm,
R. J.
Interaction between Li, Ultrathin Adsorbed Ethylene Carbonate Films, and CoO(111) Thin Films: A Model Study of the Solid Electrolyte Interphase Formation at CoO Anodes
J Phys Chem C, 124 (39) :21476–21490
2020
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Introducing Highly Redox-Active Atomic Centers into Insertion-Type Electrodes for Lithium-Ion Batteries
Advanced Energy Materials, 10 (25) :2000783
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Introducing Highly Redox-Active Atomic Centers into Insertion-Type Electrodes for Lithium-Ion Batteries
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Highly Reversible Sodiation of Tin in Glyme Electrolytes: The Critical Role of the Solid Electrolyte Interphase and Its Formation Mechanism
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Highly Reversible Sodiation of Tin in Glyme Electrolytes: The Critical Role of the Solid Electrolyte Interphase and Its Formation Mechanism
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O-2 reduction on a Au film electrode in an ionic liquid in the absence and presence of Mg2+ ions: Product formation and adlayer dynamics
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Ionic Liquid Electrolytes for Metal-Air Batteries: Interactions between O-2, Zn2+ and H2O Impurities
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Morphology-Engineered Highly Active and Stable Ru/TiO2 Catalysts for Selective CO Methanation
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Oxygen Activity in Li-Rich Disordered Rock-Salt Oxide and the Influence of LiNbO3 Surface Modification on the Electrochemical Performance
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Revisiting the Electrochemical Lithiation Mechanism of Aluminum and the Role of Li-rich Phases (Li1+xAl) on Capacity Fading
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Revisiting the Electrochemical Lithiation Mechanism of Aluminum and the Role of Li-rich Phases (Li1+xAl) on Capacity Fading
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Study of the Na Storage Mechanism in Silicon Oxycarbide-Evidence for Reversible Silicon Redox Activity
Small Methods, 3 (4, SI)
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Study of the Na Storage Mechanism in Silicon Oxycarbide-Evidence for Reversible Silicon Redox Activity
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Surface chemistry and electrochemistry of an ionic liquid and lithium on Li4Ti5O12(111)-A model study of the anode|electrolyte interface
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The role of nitrogen-doping and the effect of the pH on the oxygen reduction reaction on highly active nitrided carbon sphere catalysts
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The role of nitrogen-doping and the effect of the pH on the oxygen reduction reaction on highly active nitrided carbon sphere catalysts
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Interaction between Li, Ultrathin Adsorbed Ionic Liquid Films, and CoO(111) Thin Films: A Model Study of the Solid|Electrolyte Interphase Formation
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Insights into the electrochemical processes of rechargeable magnesium-sulfur batteries with a new cathode design
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Insights into the electrochemical processes of rechargeable magnesium-sulfur batteries with a new cathode design
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Influence of CO on the Activation, O-Vacancy Formation, and Performance of Au/ZnO Catalysts in CO2 Hydrogenation to Methanol
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Effect of Li+ and Mg2+ on the Electrochemical Decomposition of the Ionic Liquid 1-Butyl-1-methylpyrrolidinium bis(trifluoromethanesulfonyl)imide and Related Electrolytes
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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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A novel DEMS approach for studying gas evolution at battery-type electrode vertical bar electrolyte interfaces: High-voltage LiNi0.5Mn1.5O4 cathode in ethylene and dimethyl carbonate electrolytes
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A novel DEMS approach for studying gas evolution at battery-type electrode vertical bar electrolyte interfaces: High-voltage LiNi0.5Mn1.5O4 cathode in ethylene and dimethyl carbonate electrolytes
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Atomic scale insights on the electronic and geometric effects in the electro-oxidation of CO on PtxRu1-x/Ru(0001) surface alloys
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Atomic scale insights on the electronic and geometric effects in the electro-oxidation of CO on PtxRu1-x/Ru(0001) surface alloys
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Dynamic changes of Au/ZnO catalysts during methanol synthesis: A model study by temporal analysis of products (TAP) and Zn L-III near Edge X-Ray absorption spectroscopy
Catal. Today, 336 (SI) :193–202
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Dynamic changes of Au/ZnO catalysts during methanol synthesis: A model study by temporal analysis of products (TAP) and Zn L-III near Edge X-Ray absorption spectroscopy
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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
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Chemical and Electronic Changes of the CeO2 Support during CO Oxidation on Au/CeO2 Catalysts: Time-Resolved Operando XAS at the Ce LIII Edge
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Electrochim. Acta, 311 :244–254
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Electro-oxidation of methanol on Ru-core Pt-shell type model electrodes
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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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Hetero-layered MoS2/C composites enabling ultrafast and durable Na storage
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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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
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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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How many electrons are transferred during the electrochemical O-2 reduction in a Mg2+-free/Mg2+-containing ionic liquid?
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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
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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
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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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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
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Partial dissociation of water on Ru(0001) at low temperatures - Adsorption, structure formation and hydrogen passivation effects
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Partial dissociation of water on Ru(0001) at low temperatures - Adsorption, structure formation and hydrogen passivation effects
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Performance Improvement of V-Fe-Cr-Ti Solid State Hydrogen Storage Materials in Impure Hydrogen Gas
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Performance Improvement of V-Fe-Cr-Ti Solid State Hydrogen Storage Materials in Impure Hydrogen Gas
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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
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Toward Highly Reversible Magnesium-Sulfur Batteries with Efficient and Practical Mg[B(hfip)(4)](2) Electrolyte
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Toward Highly Reversible Magnesium-Sulfur Batteries with Efficient and Practical Mg[B(hfip)(4)](2) Electrolyte
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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
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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
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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
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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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Temperature-dependent insertion and adsorption of lithium on spinel Li4Ti5O12(111) thin films - an angle-resolved XPS study
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Microscopic Electrode Processes in the Four-Electron Oxygen Reduction on Highly Active Carbon-Based Electrocatalysts
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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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| DOI: | https://doi.org/10.1002/aenm.201801573 |
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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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| DOI: | https://doi.org/10.1016/j.jpowsour.2018.08.036 |
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Manganese phosphate coated Li[Ni0.6Co0.2Mn0.2]O-2 cathode material: Towards superior cycling stability at elevated temperature and high voltage
J Power Sources, 402 :263–271
2018
Manganese phosphate coated Li[Ni0.6Co0.2Mn0.2]O-2 cathode material: Towards superior cycling stability at elevated temperature and high voltage
J Power Sources, 402 :263–271
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| DOI: | https://doi.org/10.1016/j.jpowsour.2018.09.049 |
580.
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Differential Electrochemical Mass Spectrometry of Carbon Felt Electrodes for Vanadium Redox Flow Batteries
Acs Applied Energy Materials, 1 (12) :6714–6718
2018
Differential Electrochemical Mass Spectrometry of Carbon Felt Electrodes for Vanadium Redox Flow Batteries
Acs Applied Energy Materials, 1 (12) :6714–6718
2018
| DOI: | https://doi.org/10.1021/acsaem.8b01550 |
579.
Helen,
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Insight into Sulfur Confined in Ultramicroporous Carbon
Acs Omega, 3 (9) :11290–11299
2018
Insight into Sulfur Confined in Ultramicroporous Carbon
Acs Omega, 3 (9) :11290–11299
2018
| DOI: | https://doi.org/10.1021/acsomega.8b01681 |
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Schlexer,
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Widmann,
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CO Oxidation on a Au/TiO2 Nanoparticle Catalyst via the Au-Assisted Mars-van Krevelen Mechanism
Acs Catal, 8 (7) :6513–6525
2018
CO Oxidation on a Au/TiO2 Nanoparticle Catalyst via the Au-Assisted Mars-van Krevelen Mechanism
Acs Catal, 8 (7) :6513–6525
2018
| DOI: | https://doi.org/10.1021/acscatal.8b01751 |
577.
Sharova,
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Comparative study of imide-based Li salts as electrolyte additives for Li-ion batteries
J Power Sources, 375 :43–52
2018
Comparative study of imide-based Li salts as electrolyte additives for Li-ion batteries
J Power Sources, 375 :43–52
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| DOI: | https://doi.org/10.1016/j.jpowsour.2017.11.045 |
576.
Kuenzel,
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Complementary Strategies Toward the Aqueous Processing of High-Voltage LiNi0.5Mn1.5O4 Lithium-Ion Cathodes
Chemsuschem, 11 (3) :562–573
2018
Complementary Strategies Toward the Aqueous Processing of High-Voltage LiNi0.5Mn1.5O4 Lithium-Ion Cathodes
Chemsuschem, 11 (3) :562–573
2018
| DOI: | https://doi.org/10.1002/cssc.201702021 |
575.
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Conversion/alloying lithium-ion anodes - enhancing the energy density by transition metal doping
Sustainable Energy & Fuels, 2 (12) :2601–2608
2018
Conversion/alloying lithium-ion anodes - enhancing the energy density by transition metal doping
Sustainable Energy & Fuels, 2 (12) :2601–2608
2018
| DOI: | https://doi.org/10.1039/c8se00424b |
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Ding,
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Dendrite Growth in Mg Metal Cells Containing Mg(TFSI)(2)/Glyme Electrolytes
J. Electrochem. Soc., 165 (10) :A1983
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Dendrite Growth in Mg Metal Cells Containing Mg(TFSI)(2)/Glyme Electrolytes
J. Electrochem. Soc., 165 (10) :A1983
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| DOI: | https://doi.org/10.1149/2.1471809jes |
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Adsorption of Ultrathin Ethylene Carbonate Films on Pristine and Lithiated Graphite and Their Interaction with Li
Langmuir, 34 (29) :8451–8463
2018
Adsorption of Ultrathin Ethylene Carbonate Films on Pristine and Lithiated Graphite and Their Interaction with Li
Langmuir, 34 (29) :8451–8463
2018
| DOI: | https://doi.org/10.1021/acs.langmuir.8b01054 |
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Dynamic surface composition in a Mars-van Krevelen type reaction: CO oxidation on Au/TiO2
J. Catal., 357 :263–273
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Dynamic surface composition in a Mars-van Krevelen type reaction: CO oxidation on Au/TiO2
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| DOI: | https://doi.org/10.1016/j.jcat.2017.11.005 |
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Fischer,
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Electrochemical Formation and Characterization of Surface Blocking Layers on Gold and Platinum by Oxygen Reduction in Mg(ClO4)(2) in DMSO
J. Electrochem. Soc., 165 (10) :A2037
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Electrochemical Formation and Characterization of Surface Blocking Layers on Gold and Platinum by Oxygen Reduction in Mg(ClO4)(2) in DMSO
J. Electrochem. Soc., 165 (10) :A2037
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| DOI: | https://doi.org/10.1149/2.1311809jes |
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50 years of surface science in Canada - A special issue in honor of Professor Peter R. Norton
Surf. Sci., 676 (SI) :1
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50 years of surface science in Canada - A special issue in honor of Professor Peter R. Norton
Surf. Sci., 676 (SI) :1
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| DOI: | https://doi.org/10.1016/j.susc.2018.05.008 |
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Electronic effects on the water adsorption behaviour and structure formation on pseudomorphic Pt films on Ru(0001)
Surf. Sci., 676 (SI) :30–38
2018
Electronic effects on the water adsorption behaviour and structure formation on pseudomorphic Pt films on Ru(0001)
Surf. Sci., 676 (SI) :30–38
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| DOI: | https://doi.org/10.1016/j.susc.2017.11.010 |
568.
Buchner,
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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
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| DOI: | https://doi.org/10.1021/acs.jpcc.8b04660 |
567.
Li,
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Fast kinetics of multivalent intercalation chemistry enabled by solvated magnesium-ions into self-established metallic layered materials
Nat Commun, 9 :5115
2018
Fast kinetics of multivalent intercalation chemistry enabled by solvated magnesium-ions into self-established metallic layered materials
Nat Commun, 9 :5115
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| DOI: | https://doi.org/10.1038/s41467-018-07484-4 |
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Electrocatalytic Oxygen Reduction and Oxygen Evolution in Mg-Free and Mg-Containing Ionic Liquid 1-Butyl-1-Methylpyrrolidinium Bis (Trifluoromethanesulfonyl) Imide
Chemelectrochem, 5 (18) :2600–2611
2018
Electrocatalytic Oxygen Reduction and Oxygen Evolution in Mg-Free and Mg-Containing Ionic Liquid 1-Butyl-1-Methylpyrrolidinium Bis (Trifluoromethanesulfonyl) Imide
Chemelectrochem, 5 (18) :2600–2611
2018
| DOI: | https://doi.org/10.1002/celc.201800508 |