Paul Heitjans
Paul Heitjans
Professor of Physical Chemistry, Leibniz Universität Hannover
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Zitiert von
Zitiert von
Li7La3Zr2O12 Interface Modification for Li Dendrite Prevention
CL Tsai, V Roddatis, CV Chandran, Q Ma, S Uhlenbruck, M Bram, ...
ACS applied materials & interfaces 8 (16), 10617-10626, 2016
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
Diffusion in condensed matter: methods, materials, models
P Heitjans, J Kärger
Springer Science & Business Media, 2006
Diffusion and ionic conduction in nanocrystalline ceramics
P Heitjans, S Indris
J. Phys.: Condens. Matter 15, R1257-R1289, 2003
Nanocrystalline Nickel Ferrite, NiFe2O4:  Mechanosynthesis, Nonequilibrium Cation Distribution, Canted Spin Arrangement, and Magnetic Behavior
V Šepelák, I Bergmann, A Feldhoff, P Heitjans, F Krumeich, D Menzel, ...
The Journal of Physical Chemistry C 111 (13), 5026-5033, 2007
Defibrillation of soft porous metal-organic frameworks with electric fields
A Knebel, B Geppert, K Volgmann, DI Kolokolov, AG Stepanov, J Twiefel, ...
Science 358 (6361), 347-351, 2017
Mechanochemical reactions and syntheses of oxides
V Šepelák, A Düvel, M Wilkening, KD Becker, P Heitjans
Chemical Society Reviews 42 (18), 7507-7520, 2013
Multi-anionic and-cationic compounds: new high entropy materials for advanced Li-ion batteries
Q Wang, A Sarkar, D Wang, L Velasco, R Azmi, SS Bhattacharya, ...
Energy & Environmental Science 12 (8), 2433-2442, 2019
Nonequilibrium Cation Distribution, Canted Spin Arrangement, and Enhanced Magnetization in Nanosized MgFe2O4 Prepared by a One-Step Mechanochemical …
V Šepelák, A Feldhoff, P Heitjans, F Krumeich, D Menzel, FJ Litterst, ...
Chemistry of Materials 18 (13), 3057-3067, 2006
Ultraslow Li diffusion in spinel-type structured Li 4 Ti 5 O 12—A comparison of results from solid state NMR and impedance spectroscopy
M Wilkening, R Amade, W Iwaniak, P Heitjans
Physical chemistry chemical physics 9 (10), 1239-1246, 2007
Mechanosynthesis of Solid Electrolytes: Preparation, Characterization, and Li Ion Transport Properties of Garnet-Type Al-Doped Li7La3Zr2O12 Crystallizing with …
A Duvel, A Kuhn, L Robben, M Wilkening, P Heitjans
The Journal of Physical Chemistry C 116 (29), 15192-15202, 2012
NMR and impedance studies of nanocrystalline and amorphous ion conductors: lithium niobate as a model system
P Heitjans, M Masoud, A Feldhoff, M Wilkening
Faraday discussions 134, 67-82, 2007
From Micro to Macro: Access to Long‐Range Li+ Diffusion Parameters in Solids via Microscopic 6, 7Li Spin‐Alignment Echo NMR Spectroscopy
M Wilkening, P Heitjans
ChemPhysChem 13 (1), 53-65, 2012
Local and overall ionic conductivity in nanocrystalline CaF2
W Puin, S Rodewald, R Ramlau, P Heitjans, J Maier
Solid State Ionics 131 (1-2), 159-164, 2000
Nanocrystalline versus Microcrystalline Composites: Anomalous Ionic Conductivities and Percolation Theory
S Indris, P Heitjans, HE Roman, A Bunde
Physical review letters 84 (13), 2889, 2000
Theoretical study of Li migration in lithium–graphite intercalation compounds with dispersion-corrected DFT methods
S Thinius, MM Islam, P Heitjans, T Bredow
The Journal of Physical Chemistry C 118 (5), 2273-2280, 2014
Tuning the Li Diffusivity of Poor Ionic Conductors by Mechanical Treatment: High Li Conductivity of Strongly Defective LiTaO3 Nanoparticles
M Wilkening, V Epp, A Feldhoff, P Heitjans
The Journal of Physical Chemistry C 112 (25), 9291-9300, 2008
Li Ion Diffusion in the Anode Material Li12Si7: Ultrafast Quasi-1D Diffusion and Two Distinct Fast 3D Jump Processes Separately Revealed by 7Li NMR …
A Kuhn, P Sreeraj, R Pöttgen, HD Wiemhöfer, M Wilkening, P Heitjans
Journal of the American Chemical Society 133 (29), 11018-11021, 2011
Diffusion in condensed matter
T Springer, RE Lechner
Springer 1, 93-164, 2005
Nanocrystalline oxide ceramics prepared by high-energy ball milling
S Indris, D Bork, P Heitjans
Journal of Materials Synthesis and Processing 8, 245-250, 2000
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