Ingeniería y ciencia de los materiales
Chitosan
100%
Bone
68%
Membranes
59%
Nanoparticles
46%
Cell adhesion
35%
Ultraviolet radiation
30%
Hydroxyapatite
30%
Assays
27%
Titanium
22%
Phosphatases
19%
Polymeric membranes
18%
Cell proliferation
17%
Fibroblasts
17%
Biodegradability
16%
Biocompatibility
14%
Orthopedics
14%
Biomaterials
14%
Differential scanning calorimetry
13%
Nanocomposites
12%
Strength of materials
12%
Surgery
11%
Cells
11%
Thermodynamic properties
11%
Tissue
10%
Elastic moduli
9%
Scanning electron microscopy
9%
Microstructure
7%
Mechanical properties
7%
Física y astronomía
gelatins
85%
regeneration
79%
bones
69%
membranes
51%
nanoparticles
27%
adhesion
17%
titanium
16%
biodegradability
16%
osteogenesis
15%
phosphatases
15%
connective tissue
14%
orthopedics
13%
fibroblasts
12%
immobilization
12%
biocompatibility
12%
surgery
11%
thermophysical properties
11%
radiation
11%
lesions
11%
cells
10%
mice
10%
heat measurement
8%
nanocomposites
8%
modulus of elasticity
8%
mechanical properties
6%
scanning electron microscopy
6%
scanning
6%
microstructure
5%
performance
4%
Medicina y ciencias biológicas
Bone Regeneration
80%
Chitosan
78%
Gelatin
76%
Membranes
42%
Nanoparticles
36%
titanium dioxide
26%
Durapatite
21%
Ultraviolet Rays
20%
Cell Adhesion
19%
Nanocomposites
13%
Differential Scanning Calorimetry
12%
Architectural Accessibility
12%
Oral Surgery
11%
Elastic Modulus
11%
Immobilization
10%
Biocompatible Materials
10%
Electron Scanning Microscopy
9%
Connective Tissue
9%
Orthopedics
9%
Alkaline Phosphatase
9%
Osteogenesis
8%
In Vitro Techniques
8%
Cell Movement
8%
Fibroblasts
7%
Cell Proliferation
6%
Compuestos químicos
Osteogenic
90%
UV Radiation
41%
Nanoparticle
35%
Application
22%
Young's Modulus
18%
Biodegradability
18%
Non Toxic
18%
Gelatin
18%
Thermodynamic Property
15%
Biomaterial
15%
Chitosan
14%
Differential Scanning Calorimetry
12%
Microstructure
11%
Nanocomposite
11%
Strength
11%
Scanning Electron Microscopy
10%