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A Dynamic Duo: Fast ion conduction in metal hydride/oxide nanocomposites
Laura Maria de Kort
Faculty of Science
Research output
:
Thesis
›
Doctoral thesis 1 (Research UU / Graduation UU)
Overview
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Dive into the research topics of 'A Dynamic Duo: Fast ion conduction in metal hydride/oxide nanocomposites'. Together they form a unique fingerprint.
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Keyphrases
Oxide Nanocomposites
100%
Fast Ion Conduction
100%
Metal Hydride
100%
LiBH4
62%
All-solid-state Battery
25%
LiNH2
25%
Ionic Transport
25%
Nanocomposite Formation
25%
Conductivity Enhancement
25%
Interaction Effect
12%
Renewable Energy
12%
Hydrides
12%
Fossil Fuels
12%
Physical Properties
12%
Chemical Properties
12%
Oxides
12%
Ambient Temperature
12%
Li-ion Battery
12%
NaBH4
12%
Electrolyte
12%
High Capacity
12%
High-temperature Phase
12%
Metal Oxide
12%
Mesoporous Oxides
12%
Next-generation Batteries
12%
Increased Safety
12%
Global Transition
12%
Electricity Storage
12%
Monophasic
12%
Solid Electrolyte
12%
Ionic Conductivity
12%
Conductive Layer
12%
Electrode Materials
12%
Oxide Interfaces
12%
NaNH2
12%
Room Temperature Ionic Conductivity
12%
Metal Conductivity
12%
Ion-substituted
12%
Material Science
Metal Hydride
100%
Oxide Nanocomposites
100%
Nanocomposite
37%
Ionic Conductivity
25%
All-Solid-State Batteries
25%
Oxide Compound
25%
Physical Property
12%
Chemical Property
12%
Metal Oxide
12%
Hydride
12%
Lithium Ion Battery
12%
Oxide Interface
12%
Fossil Fuel
12%
Solid Electrolyte
12%
Engineering
Nanocomposites
100%
Conductive
33%
All-Solid-State Batteries
33%
Promising Candidate
16%
Illustrates
16%
Fossil Fuel
16%
Electricity Storage
16%
Lithium Ion Battery
16%
Room Temperature
16%
High Temperature Phase
16%
Mesoporous Oxide
16%
Renewable Energy
16%