Medicine & Life Sciences
titanium-niobium alloy
100%
Bone Regeneration
52%
Doxycycline
35%
Fourier Transform Infrared Spectroscopy
34%
Fibroblasts
34%
Nutrients
26%
Niobium
26%
Electrons
24%
Alveolar Process
20%
Freeze Drying
19%
Elastic Modulus
18%
Bone Development
17%
Chitosan
17%
Gelatin
16%
Particle Size
16%
Titanium
15%
Freezing
15%
Osteoblasts
14%
Metals
13%
Staphylococcus aureus
13%
Permeability
13%
Lasers
12%
Bacteria
10%
Anti-Bacterial Agents
10%
Membranes
9%
Growth
7%
Infections
7%
In Vitro Techniques
6%
Therapeutics
2%
Engineering & Materials Science
Niobium alloys
77%
Titanium alloys
47%
Bone
44%
Coatings
34%
Fibroblasts
22%
Zeta potential
14%
Nutrients
12%
Fourier transform infrared spectroscopy
12%
Infiltration
11%
Electron microscopes
9%
Staphylococcus aureus
8%
Scanning
7%
Osteoblasts
7%
Cytotoxicity
7%
Antibiotics
7%
Chitosan
7%
Cell culture
6%
Niobium
6%
Selective laser melting
6%
Biocompatibility
6%
Particle size analysis
5%
Bacteria
5%
Titanium
4%
Drying
4%
Yield stress
4%
Tissue
4%
Membranes
4%
Elastic moduli
4%
Substrates
3%
Defects
3%
Metals
3%
Chemistry
Electrophoretic Deposition
55%
Alloy
32%
Coating Agent
27%
Doxycycline
14%
Nutrient
10%
Zeta Potential
9%
Porosity
8%
Antibacterial
8%
Particle Size Analysis
6%
Yield Point
5%
Fourier Transform Infrared Spectroscopy
5%
Freeze Drying
5%
Electron Particle
5%
Gelatin
5%
Melting
4%
Chitosan
4%
Permeability
4%
Antimicrobial Agent
3%
Metal
2%
Surface
1%