Jürgen Janek
Jürgen Janek
Institute of Physical Chemistry, Justus Liebig University Giessen; BELLA, KIT
Bestätigte E-Mail-Adresse bei unitybox.de - Startseite
Zitiert von
Zitiert von
A solid future for battery development
J Janek, WG Zeier
Nature Energy 1 (9), 1-4, 2016
A rechargeable room-temperature sodium superoxide (NaO 2) battery
P Hartmann, CL Bender, M Vračar, AK Dürr, A Garsuch, J Janek, ...
Nature materials 12 (3), 228-232, 2013
Room-temperature sodium-ion batteries: Improving the rate capability of carbon anode materials by templating strategies
S Wenzel, T Hara, J Janek, P Adelhelm
Energy & Environmental Science 4 (9), 3342-3345, 2011
Structure and dynamics of the fast lithium ion conductor “Li 7 La 3 Zr 2 O 12”
H Buschmann, J Dölle, S Berendts, A Kuhn, P Bottke, M Wilkening, ...
Physical Chemistry Chemical Physics 13 (43), 19378-19392, 2011
New horizons for inorganic solid state ion conductors
Z Zhang, Y Shao, B Lotsch, YS Hu, H Li, J Janek, LF Nazar, CW Nan, ...
Energy & Environmental Science 11 (8), 1945-1976, 2018
Tuning transition metal oxide–sulfur interactions for long life lithium sulfur batteries: the “Goldilocks” principle
X Liang, CY Kwok, F Lodi‐Marzano, Q Pang, M Cuisinier, H Huang, ...
Advanced Energy Materials 6 (6), 1501636, 2016
Direct Observation of the Interfacial Instability of the Fast Ionic Conductor Li10GeP2S12 at the Lithium Metal Anode
S Wenzel, S Randau, T Leichtweiß, DA Weber, J Sann, WG Zeier, J Janek
Chemistry of Materials 28 (7), 2400-2407, 2016
TEMPO: A Mobile Catalyst for Rechargeable Li-O2 Batteries
BJ Bergner, A Schürmann, K Peppler, A Garsuch, J Janek
Journal of the American Chemical Society 136 (42), 15054-15064, 2014
From lithium to sodium: cell chemistry of room temperature sodium–air and sodium–sulfur batteries
P Adelhelm, P Hartmann, CL Bender, M Busche, C Eufinger, J Janek
Beilstein journal of nanotechnology 6 (1), 1016-1055, 2015
Capacity fade in solid-state batteries: interphase formation and chemomechanical processes in nickel-rich layered oxide cathodes and lithium thiophosphate solid electrolytes
R Koerver, I Aygün, T Leichtweiß, C Dietrich, W Zhang, JO Binder, ...
Chemistry of Materials 29 (13), 5574-5582, 2017
Degradation of NASICON-type materials in contact with lithium metal: formation of mixed conducting interphases (MCI) on solid electrolytes
P Hartmann, T Leichtweiss, MR Busche, M Schneider, M Reich, J Sann, ...
The Journal of Physical Chemistry C 117 (41), 21064-21074, 2013
A comprehensive study on the cell chemistry of the sodium superoxide (NaO 2) battery
P Hartmann, CL Bender, J Sann, AK Dürr, M Jansen, J Janek, P Adelhelm
Physical Chemistry Chemical Physics 15 (28), 11661-11672, 2013
Interphase formation on lithium solid electrolytes—an in situ approach to study interfacial reactions by photoelectron spectroscopy
S Wenzel, T Leichtweiss, D Krüger, J Sann, J Janek
Solid State Ionics 278, 98-105, 2015
Influence of Lattice Polarizability on the Ionic Conductivity in the Lithium Superionic Argyrodites Li6PS5X (X = Cl, Br, I)
MA Kraft, SP Culver, M Calderon, F Böcher, T Krauskopf, A Senyshyn, ...
Journal of the American Chemical Society 139 (31), 10909-10918, 2017
Elastic strain at interfaces and its influence on ionic conductivity in nanoscaled solid electrolyte thin films—theoretical considerations and experimental studies
N Schichtel, C Korte, D Hesse, J Janek
Physical Chemistry Chemical Physics 11 (17), 3043-3048, 2009
Interphase formation and degradation of charge transfer kinetics between a lithium metal anode and highly crystalline Li7P3S11 solid electrolyte
S Wenzel, DA Weber, T Leichtweiss, MR Busche, J Sann, J Janek
Solid State Ionics 286, 24-33, 2016
Anisotropic lattice strain and mechanical degradation of high-and low-nickel NCM cathode materials for Li-ion batteries
AO Kondrakov, A Schmidt, J Xu, H Geßwein, R Mönig, P Hartmann, ...
The journal of physical chemistry C 121 (6), 3286-3294, 2017
Mesoporous TiO2: Comparison of Classical Sol−Gel and Nanoparticle Based Photoelectrodes for the Water Splitting Reaction
P Hartmann, DK Lee, BM Smarsly, J Janek
Acs Nano 4 (6), 3147-3154, 2010
Ionic conductivity and activation energy for oxygen ion transport in superlattices—the semicoherent multilayer system YSZ (ZrO 2+ 9.5 mol% Y 2 O 3)/Y 2 O 3
C Korte, A Peters, J Janek, D Hesse, N Zakharov
Physical Chemistry Chemical Physics 10 (31), 4623-4635, 2008
Chemo-mechanical expansion of lithium electrode materials–on the route to mechanically optimized all-solid-state batteries
R Koerver, W Zhang, L de Biasi, S Schweidler, AO Kondrakov, S Kolling, ...
Energy & Environmental Science 11 (8), 2142-2158, 2018
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