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Metal-based reactive nanomaterials
Edward L. Dreizin
Chemical and Materials Engineering
Research output
:
Contribution to journal
›
Review article
›
peer-review
842
Scopus citations
Overview
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Keyphrases
Nanocomposite Materials
100%
Reactive Nanomaterials
100%
Base Metals
100%
Interface Area
66%
Reactive Interface
66%
Materials Processing
33%
Material Characterization
33%
Metal Fuel
33%
Reactive Materials
33%
Micron-sized
33%
Thermodynamic Properties
33%
Compositional Properties
33%
Material System
33%
Nanometer Scale
33%
Morphological Properties
33%
Energetic Formulation
33%
Low Reaction
33%
Reactive Nanocomposites
33%
Reaction Rate
33%
Ignition Delay Time
33%
Ignition Mechanism
33%
Combustion Temperature
33%
Metal Combustion
33%
Heterogeneous Reaction
33%
Combustion Regime
33%
Metal Nanopowder
33%
Reaction Enthalpy
33%
High Enthalpy
33%
Elemental Metals
33%
Phase Composition
33%
Metallic Fuel
33%
Phase Domain
33%
Oxidation Energy
33%
Reactive Structural Materials
33%
Being Observed
33%
Metal Components
33%
Individual Phases
33%
Engineering
Nanomaterial
100%
Nanocomposite
100%
Energy Engineering
33%
Nanometre
33%
Individual Particle
33%
Reactive Material
33%
Ignition
33%
Material System
33%
Energetics
33%
Application Area
33%
Structural Materials
33%
Ignition Delay
33%
Combustion Temperature
33%
Nanopowder
33%
Heterogeneous Reaction
33%
Phase Composition
33%
Component Metal
33%
Individual Phase
33%
Elemental Metal
33%
Material Science
Nanocrystalline Material
100%
Nanocomposites
100%
Building Material
33%
Metal Fuels
33%
Material Processing
33%
Oxidation Reaction
33%
Nanopowder
33%
Phase Composition
33%