Engineering & Materials Science
Hydrogels
100%
Tissue
44%
Alcohols
34%
Biomaterials
33%
Fibers
27%
Swelling
20%
Hyaluronic acid
19%
Electrospinning
19%
Tissue engineering
16%
Composite materials
16%
Polypropylenes
16%
Scaffolds
12%
Ultrahigh molecular weight polyethylenes
12%
Repair
12%
Gold Nanorods
11%
Bone
10%
Proteins
10%
Cartilage
10%
Polymers
10%
Biomolecules
10%
Gelation
8%
Elastic moduli
8%
Milk
7%
Peptides
7%
Shear strength
7%
Mentoring
6%
DNA
6%
Characterization (materials science)
5%
Acids
5%
Magnetic fields
5%
Gels
5%
Infrared radiation
5%
Medicine & Life Sciences
Hydrogels
83%
Biocompatible Materials
27%
Tissue Engineering
21%
Alcohols
16%
Hyaluronic Acid
15%
Osmotic Pressure
14%
Cartilage
12%
Bone Morphogenetic Protein 2
11%
Bone and Bones
10%
Microgels
9%
Stem Cells
9%
Osteogenesis
9%
Bioprinting
9%
Alarmins
8%
Polylactic Acid-Polyglycolic Acid Copolymer
8%
ultra-high molecular weight polyethylene
8%
Nanotubes
8%
Peptides
8%
X-Ray Microtomography
7%
Extracellular Matrix
7%
Chemokine CXCL12
7%
Bone Morphogenetic Proteins
7%
Crystallization
7%
Regeneration
7%
platelet-derived growth factor AB
7%
Vocal Cords
6%
Magnetic Fields
6%
Systems Analysis
6%
Paleopathology
6%
Regenerative Medicine
6%
Polymers
6%
Cell Transplantation
6%
Cell Survival
6%
Microspheres
6%
Gold
6%
In Vitro Techniques
5%
Spinal Cord Injuries
5%
Connective Tissue
5%
Somatomedins
5%
Intercellular Signaling Peptides and Proteins
5%
Chemical Compounds
Hydrogel
77%
Biomaterial
36%
Fiber
28%
Meniscus
28%
Fibrous Crystal
26%
Hyaluronic Acid
21%
Alcohol
21%
Osmotic Pressure
14%
Composite Material
12%
Poly(propylene)
12%
Musculoskeletal
12%
Ultra High Molecular Weight Polyethylene
11%
Shear Strength
10%
Application
8%
Porosity
8%
Transdermal
7%
Molecular Scaffold
7%
Crosslink Density
7%
Interstitial
6%
Crystallinity
6%
Magnetic Field
5%
Gel
5%
Compression Modulus
5%
Phase Separation
5%
Microsphere
5%
Dimension
5%
Nanorod
5%
Osteogenic
5%