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Progress towards nanoengineered energetic materials
Richard A. Yetter
Mechanical Engineering
Materials Research Institute (MRI)
Research output
:
Contribution to journal
›
Conference article
›
peer-review
43
Scopus citations
Overview
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Physics & Astronomy
sensitivity
100%
flux density
90%
commonality
87%
pyrotechnics
84%
smart materials
76%
quantum chemistry
70%
particle interactions
63%
reaction kinetics
51%
energy
50%
nanocomposites
49%
assembly
48%
potential energy
48%
manufacturing
47%
vapor phases
45%
synthesis
41%
molecular dynamics
41%
thermodynamics
38%
nanoparticles
38%
products
36%
oxides
35%
performance
25%
Engineering & Materials Science
Quantum chemistry
67%
Particle interactions
59%
Nanostructured materials
52%
Intelligent materials
52%
Energy release rate
50%
Reaction rates
48%
Molecular dynamics
47%
Potential energy
47%
Nanocomposites
45%
Nanoparticles
42%
3D printers
42%
Thermodynamics
36%
Oxides
36%
Gases
24%
Chemical Compounds
Energy
80%
Metallic Material
54%
Bond Energy
48%
Quantum Chemistry
46%
Potential Energy
43%
Application
40%
Molecular Dynamics
31%
Additive
28%
Nanocomposite
28%
Surface Area
27%
Nanomaterial
26%
Thermodynamics
26%
Oxide
23%
Nanoparticle
21%