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Low-temperature proton transport in clathrates
M. Cappadonia
, A. A. Kornyshev
, S. Krause
, A. M. Kuznetsov
,
U. Stimming
Forschungszentrum Jülich (FZJ)
Russian Academy of Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
20
Scopus citations
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Keyphrases
Low Temperature
100%
Proton Transport
100%
Clathrate
100%
Conductance
66%
Proton
66%
Deuteration
66%
Closed-loop System
33%
Strong Coupling
33%
Room Temperature
33%
Acceptor Site
33%
Dielectric Constant
33%
Donor-acceptor
33%
Quantum Theory
33%
Slow Mode
33%
Isotope Effect
33%
Tunneling
33%
Environmental Fluctuations
33%
Proton Conductivity
33%
Diabatic
33%
Tunneling Probability
33%
Deuteron
33%
Low Temperature Regime
33%
Proton Tunneling
33%
Impedance Spectra
33%
Arrhenius Behavior
33%
Tunneling Barrier
33%
Apparent Activation Energy
33%
Arrhenius Plot
33%
Local Vibrational Modes
33%
Close Environment
33%
Chemistry
Conductance
100%
Clathrate
100%
Ambient Reaction Temperature
50%
Donor
50%
Dielectric Constant
50%
Reaction Activation Energy
50%
Arrhenius Plot
50%
Permittivity
50%
Isotope Effect
50%
Quantum Theory
50%
Deuteron
50%
Engineering
Low-Temperature
100%
Tunnel Construction
100%
Clathrate
100%
Dielectrics
25%
Data Show
25%
Arrhenius
25%
Proton Conductivity
25%
Apparent Activation Energy
25%
Room Temperature
25%
Arrhenius Plot
25%
Deuteron
25%
Earth and Planetary Sciences
Clathrate
100%
Room Temperature
50%
Permittivity
50%
Isotope Effect
50%
Quantum Theory
50%
Deuteron
50%