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Physical Review. B, Condensed Matter
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September 1, 1995
Longitudinal spin relaxation in simple stochastic models for disordered systems
Borgs, Kehr, Heitjans
Chemphyschem : a European Journal of Chemical Physics and Physical Chemistry
|
September 29, 2011
From micro to macro: access to long-range Li+ diffusion parameters in solids via microscopic (6, 7) Li spin-alignment echo NMR spectroscopy
Martin Wilkening, Paul Heitjans
Physical Review Letters
|
October 6, 2000
Nanocrystalline versus microcrystalline Li(2)O:B(2)O3 composites: anomalous ionic conductivities and percolation theory
Indris, Heitjans, Roman, et al.
Chemistry (Weinheim an Der Bergstrasse, Germany)
|
April 11, 2012
From composites to solid solutions: modeling of ionic conductivity in the CaF2-BaF2 system
Dirk Zahn, Paul Heitjans, Joachim Maier
Physical Chemistry Chemical Physics : PCCP
|
November 5, 2011
On the mechanisms of ionic conductivity in BaLiF3: a molecular dynamics study
Dirk Zahn, Sven Herrmann, Paul Heitjans
Physical Review Letters
|
October 10, 2006
From ultraslow to fast lithium diffusion in the 2D ion conductor Li0.7TiS2 probed directly by stimulated-echo NMR and nuclear magnetic relaxation
M Wilkening, W Küchler, P Heitjans
Physical Chemistry Chemical Physics : PCCP
|
February 28, 2007
Ultraslow Li diffusion in spinel-type structured Li4Ti5O12 - a comparison of results from solid state NMR and impedance spectroscopy
Martin Wilkening, Roger Amade, Wojciech Iwaniak, et al.
Journal of Physics. Condensed Matter : an Institute of Physics Journal
|
April 28, 2012
The ionic conductivity in lithium-boron oxide materials and its relation to structural, electronic and defect properties: insights from theory
Mazharul M Islam, Thomas Bredow, Paul Heitjans
Faraday Discussions
|
March 1, 2007
NMR and impedance studies of nanocrystalline and amorphous ion conductors: lithium niobate as a model system
Paul Heitjans, Muayad Masoud, Armin Feldhoff, et al.
Physical Chemistry Chemical Physics : PCCP
|
May 24, 2019
Neutron reflectometry to measure in situ the rate determining step of lithium ion transport through thin silicon layers and interfaces
Erwin Hüger, Jochen Stahn, Paul Heitjans, et al.
Page
of 5
Search research articles
Search
Showing results (1-10 of 42) with videos related to
Sort By:
Page
of 5
Physical Review. B, Condensed Matter
|
September 1, 1995
Longitudinal spin relaxation in simple stochastic models for disordered systems
Borgs, Kehr, Heitjans
Chemphyschem : a European Journal of Chemical Physics and Physical Chemistry
|
September 29, 2011
From micro to macro: access to long-range Li+ diffusion parameters in solids via microscopic (6, 7) Li spin-alignment echo NMR spectroscopy
Martin Wilkening, Paul Heitjans
Physical Review Letters
|
October 6, 2000
Nanocrystalline versus microcrystalline Li(2)O:B(2)O3 composites: anomalous ionic conductivities and percolation theory
Indris, Heitjans, Roman, et al.
Chemistry (Weinheim an Der Bergstrasse, Germany)
|
April 11, 2012
From composites to solid solutions: modeling of ionic conductivity in the CaF2-BaF2 system
Dirk Zahn, Paul Heitjans, Joachim Maier
Physical Chemistry Chemical Physics : PCCP
|
November 5, 2011
On the mechanisms of ionic conductivity in BaLiF3: a molecular dynamics study
Dirk Zahn, Sven Herrmann, Paul Heitjans
Physical Review Letters
|
October 10, 2006
From ultraslow to fast lithium diffusion in the 2D ion conductor Li0.7TiS2 probed directly by stimulated-echo NMR and nuclear magnetic relaxation
M Wilkening, W Küchler, P Heitjans
Physical Chemistry Chemical Physics : PCCP
|
February 28, 2007
Ultraslow Li diffusion in spinel-type structured Li4Ti5O12 - a comparison of results from solid state NMR and impedance spectroscopy
Martin Wilkening, Roger Amade, Wojciech Iwaniak, et al.
Journal of Physics. Condensed Matter : an Institute of Physics Journal
|
April 28, 2012
The ionic conductivity in lithium-boron oxide materials and its relation to structural, electronic and defect properties: insights from theory
Mazharul M Islam, Thomas Bredow, Paul Heitjans
Faraday Discussions
|
March 1, 2007
NMR and impedance studies of nanocrystalline and amorphous ion conductors: lithium niobate as a model system
Paul Heitjans, Muayad Masoud, Armin Feldhoff, et al.
Physical Chemistry Chemical Physics : PCCP
|
May 24, 2019
Neutron reflectometry to measure in situ the rate determining step of lithium ion transport through thin silicon layers and interfaces
Erwin Hüger, Jochen Stahn, Paul Heitjans, et al.
Page
of 5