INIS
graphene
100%
molecular dynamics method
61%
heat transfer
55%
superlattices
55%
thermal conductivity
49%
simulation
49%
phonons
44%
nanostructures
43%
resolution
30%
remote sensing
27%
satellites
27%
architecture
27%
length
24%
values
17%
layers
17%
motion
17%
interfaces
17%
carbon nitrides
17%
hybrids
16%
size
14%
surfaces
13%
hydrogenation
13%
clusters (ion)
13%
gases
13%
water
13%
cross-linking
13%
droplets
13%
ion beams
13%
carbon nanotubes
13%
sound waves
13%
friction factor
13%
boron nitrides
13%
eggs
13%
brakes
13%
topology
13%
protection
13%
panels
13%
design
13%
geometry
13%
nanomaterials
12%
equilibrium
11%
argon
11%
energy
10%
dynamics
10%
speed
9%
irradiation
8%
temperature gradients
8%
applications
7%
friction
6%
comparative evaluations
5%
Keyphrases
Molecular Dynamics Simulation
45%
Superlattice
34%
Nanoribbon
31%
Active-passive
27%
Remote Sensing Satellite
27%
Ultra-high Resolution
27%
Composite Structures
27%
Earth Remote Sensing
27%
Multiscale Composites
27%
Graphene Superlattice
27%
Heat Transfer
27%
Thermal Rectification
27%
Thermal Conductivity
23%
Phonons
17%
Graphene-like Carbon Nitride
16%
Hybrid Graphene
15%
Phonon Heat Transport
13%
Biphenylene
13%
Two Dimensional
13%
Dynamic Friction Coefficient
13%
High Friction
13%
Vertically Aligned Carbon Nanotubes (VACNTs)
13%
Design Representation
13%
Representation Framework
13%
Damper
13%
Phagraphene
13%
Graphene-carbon Nanotubes Hybrid
13%
Proposed Architecture
13%
Honeycomb Panel
13%
Computational Framework
13%
Novel Design
13%
C-rate
13%
Piezo
13%
Launch Loads
13%
Structural Protection
13%
Hydrogenated Graphene
13%
On-board System
13%
Micro-vibration
13%
Collaborative Research
13%
Computational Study
13%
Hexagonal Boron Nitride (h-BN)
13%
Carbon Nanotubes
13%
Friction Coefficient
13%
Geometry Effect
13%
Interface Geometry
13%
Grant Program
13%
Braking
13%
Temperature Difference
11%
Argon Cluster
11%
Non-equilibrium Molecular Dynamics Simulation
10%
Minimum Thermal Conductivity
9%
Nanostructures
8%
Graphene
6%
Overlap Length
6%
Dynamic Friction
6%
Relative Speed
6%
Static Friction Coefficient
6%
Friction Dynamics
6%
Nanotubes
6%
Relative Motion
6%
Superlattices
6%
Graphene Layer
6%
Friction Model
6%
Nanomaterials
6%
G-C3N
6%
Ribbon
5%
Graphene Conductivity
5%
Engineering
Graphene
82%
Computer Simulation
48%
Superlattice
41%
Thermal Conductivity
37%
Composite Structure
27%
Multiscale
27%
Rectification
27%
Heat Transport
27%
Nitride
16%
Two Dimensional
15%
Friction Coefficient
13%
Carbon Nanotube
13%
Coefficient of Friction
13%
Durables
13%
High Resolution
13%
Surface Acoustic Wave
13%
Nonequilibrium
12%
Nanomaterial
7%
Temperature Gradient
6%