Keyphrases
Natural Killer Cells
97%
Nanowires
81%
Nanoimprint
74%
Nanoimprint Lithography
63%
Nanopatterning
54%
Chalcogenide Glasses
50%
Guided Growth
48%
Pattern Transfer
33%
T Cells
32%
Molecular Scale
30%
Cytotoxic Activity
30%
Thermal Nanoimprinting
29%
Cell Adhesion
29%
Nanofabrication
27%
Cell Spreading
24%
T Cell Activation
22%
Orientation Control
19%
Second Harmonic Generation
19%
Plasma Fluorination
19%
Subwavelength
19%
Homodimer
19%
Inhibitory Signaling
19%
Cytoskeletal Proteins
19%
Self-assembled Monolayer
19%
Activating Receptors
17%
Spatial Control
17%
Fluorocarbon
17%
High-throughput
17%
High-resolution
16%
Nanoimprint Mold
16%
Hydrogen Silsesquioxane
16%
Inhibitory Receptors
16%
Anti-reflective
16%
Microstructure
15%
Horizontal Nanowires
15%
GaN Nanowires
14%
Relief Feature
14%
Immunological Synapse
14%
Thiolate
14%
Diamond-like Carbon
14%
Protein-protein Interaction
14%
Fluorinated
14%
Spatial Organization
14%
Mechanosensing
14%
Nanodevices
13%
Costimulatory Molecules
13%
Micropatterning
13%
Activating Ligands
13%
Soft Nanoimprint
13%
Polydimethylsiloxane
13%
Material Science
Lithography
100%
Nanowire
87%
Nanocrystalline Material
58%
Chalcogenides Glass
58%
T-Cells
42%
Nanodots
29%
Self Assembled Monolayer
29%
Film
24%
Lymphocyte
23%
Elastomer
22%
Density
21%
Nanocomposites
20%
Silsesquioxane
19%
Nanoparticle
19%
Silver
19%
Optical Device
18%
Photoluminescence
15%
Nanodevice
14%
Oxide Compound
14%
Carbon Surface
14%
Sapphire
14%
Monolayers
12%
X-Ray Photoelectron Spectroscopy
11%
Distance Measurement
9%
Hydrophobicity
9%
Annealing
9%
Titanium Dioxide
9%
Block Copolymer
9%
Amorphous Material
9%
Nanocomposite Coating
9%
Advanced Material
9%
Particle Assembly
9%
Theoretical Modeling
9%
Thermal Expansion
9%
Surface Coating
9%
Biomaterial
9%
Composite Material
9%
Carbon-Based Material
9%
Comminution
9%
Mechanical Stress
9%
Diamond-Like Carbon
9%
Polymer Matrix
9%
Epitaxy
9%
Fluorescence Microscopy
9%
Stem Cell
9%
Poly Methyl Methacrylate
9%
Chemisorption
9%
Photovoltaics
9%
Film Thickness
9%
Polyimide
9%