Engineering & Materials Science
Polymers
100%
Water
79%
Blood
73%
Platelets
44%
Proteins
42%
Polymer films
40%
Hydration
40%
Adsorption
37%
Cells
35%
Adhesion
32%
Copolymers
27%
Vibrational spectroscopy
26%
Endothelial cells
25%
Biomaterials
24%
Biocompatibility
23%
Tissue engineering
23%
Scaffolds
23%
Cell adhesion
22%
Pore size
21%
Molecules
20%
PHEMA
17%
Substrates
17%
Freezing
17%
Water content
16%
Monomers
16%
Sorption
15%
Ring opening polymerization
15%
Molecular structure
14%
Stem cells
13%
Tumors
13%
Hepatocytes
13%
Crystallization
12%
Infrared spectroscopy
12%
Fabrication
12%
Differential scanning calorimetry
12%
Hydrogels
12%
Fibroblasts
12%
Denaturation
12%
Cell proliferation
11%
Biodegradable polymers
11%
Atomic force microscopy
11%
Tissue
11%
Infrared radiation
10%
Nuclear magnetic resonance
10%
Thin films
9%
Microscopes
9%
Molecular dynamics
8%
Contact angle
8%
Quartz crystal microbalances
8%
Stretching
8%
Chemical Compounds
Acrylate
95%
Liquid Film
32%
Biomaterial
21%
Protein
20%
Adsorption
17%
Surface
17%
Interfacial Structure
16%
Biocompatible Material
13%
Amount
11%
2-Hydroxyethyl Methacrylate
11%
Differential Scanning Calorimetry
11%
Copolymer
10%
Molecule
10%
Crystallization
10%
Surface Force
9%
Ring Opening Metathesis Polymerisation
8%
Atomic Force Microscopy
8%
Methacrylate
8%
Spreading
8%
Denaturation
8%
Quartz
8%
Pore Size
7%
Monomer
7%
Polymer Chain
7%
Attenuated Total Reflection
6%
Sorption
6%
Hydrogel
6%
Fibronectin
6%
Self Assembled Monolayer
6%
Spectroscopy
5%
Compound Mobility
5%
Random Copolymer
5%
Physics & Astronomy
acrylates
34%
water
26%
polymers
24%
adhesion
17%
blood
16%
proteins
14%
hydration
13%
compatibility
12%
adsorption
10%
platelets
9%
fibrinogen
9%
tissue engineering
7%
sorption
6%
cells
6%
biocompatibility
6%
porosity
6%
honeycomb structures
5%
muscle cells
5%
biopolymer denaturation
5%
glycols
5%
fibroblasts
5%
