INIS
aging
22%
alloys
22%
anhydrides
22%
applications
36%
argon
22%
assessments
22%
beams
27%
cesium ions
40%
coating (surface)
22%
comparative evaluations
30%
data
13%
depth
91%
devices
20%
diamonds
22%
energy
40%
epidermis
22%
films
22%
fragmentation
13%
germanium
22%
humans
22%
hybrids
34%
interfaces
41%
investigations
28%
ion beams
44%
ions
27%
layers
100%
lead halides
22%
light emitting diodes
22%
mass spectrometry
25%
molecules
15%
multivariate analysis
22%
nanomaterials
22%
peaks
14%
peptides
15%
performance
28%
perovskite
38%
perovskites
22%
phenylalanine
24%
photoluminescence
22%
plasma
27%
polyethylene glycols
22%
resolution
26%
sims
83%
size
22%
solar cells
34%
sputtering
38%
stability
14%
surfaces
49%
time-of-flight method
27%
vacancies
22%
Keyphrases
2D MXene
11%
2D Nanomaterials
22%
Argon Atom
11%
Beam Conditions
11%
Biological Performance
22%
Cardiovascular Applications
11%
Cardiovascular Implantable Electronic Devices
22%
Controllable Composition
11%
Damage Accumulation
11%
Damage Tolerant
11%
Dataset Analysis
11%
Defects in Diamond
9%
Direct Plasma
22%
D″ Layer
22%
Electropolished
11%
Germanium Vacancy
22%
Germanium Vacancy Center
22%
Glass Samples
11%
Glutaric Anhydride
17%
Hard Layer
11%
Interface Effect
11%
Interface-engineered
22%
Ion-beam Source
11%
L-605
22%
Microcrystalline Diamond Film
13%
Microwave Plasma Chemical Vapor Deposition (MPCVD)
13%
Mn Ions
11%
Molecular Fragmentation
11%
Molecular Profile
11%
MXene-based Composites
22%
Nanocrystalline Diamond
13%
Nanocrystalline Diamond Films
22%
Operation Stability
11%
Organic-inorganic Interface
11%
Organolead Halide
22%
Performance Characterization
22%
Quantum Sensing
22%
Resolution Evaluation
22%
Si Wafer
11%
Soft Layer
11%
Surface Layer Formation
22%
Surface Termination
11%
Ti3C2Tx
22%
Ti3C2Tx MXene
22%
TOF-MEIS
22%
Transition Metal Carbonitrides
11%
Two-dimensional MXene
11%
Wavelet Principal Component Analysis
11%
Young Families
11%
Zero-phonon Line
9%