Engineering & Materials Science
Chitin
100%
Yeast
47%
Hydrogels
38%
Polymers
37%
Biopolymers
32%
Polysaccharides
32%
Chitosan
23%
Gels
23%
Cytotoxicity
19%
Dissolution
19%
Gelation
18%
Characterization (materials science)
17%
Chain length
16%
Ionic liquids
13%
Fungi
12%
Positive ions
12%
Glycerol
12%
Skin
11%
Fruits
11%
Pulp
10%
Chemical analysis
10%
Choline
10%
Byproducts
10%
Demonstrations
10%
Iron
8%
Keratinocytes
8%
Copper
8%
Lasers
7%
Sodium hydroxide
7%
Dialysis
7%
Drug delivery
7%
Temperature
7%
Swelling
6%
Caffeine
6%
Drug products
6%
Acetylation
6%
Urea
6%
Crystallinity
5%
Bacterial Polysaccharides
5%
Antioxidants
5%
Cell growth
5%
Agriculture
5%
Fructose
5%
Polydispersity
5%
Biodegradable polymers
5%
Biomass
5%
Chemistry
Polyhydroxyalkanoate
53%
Biopolymer
29%
Hydrogel
23%
Chitin
22%
Polysaccharide
20%
3-Hydroxytetradecanoate
17%
Glycerol
16%
3-Hydroxydecanoate
15%
Gel
15%
Biocompatible Material
14%
3-Hydroxyoctanoate
14%
3-Hydroxyhexanoate
14%
Mannan
13%
Xylitol
13%
Dissolution
13%
Flocculation
10%
Chitosan
10%
Copolymer
10%
Drug
10%
Emulsifying Agent
10%
Non Toxic
10%
Solubilization
9%
Liquid Film
9%
Glass Transition
8%
Crystallinity
8%
Transdermal
8%
Safety
8%
Strain
8%
Polydispersity
8%
Biomaterial
8%
Tension
7%
Urea
7%
Suspension
7%
Ionic Liquid
7%
Application
6%
Choline
6%
Dialysis
6%
Food
5%
Acetylation
5%
Length
5%
Medicine & Life Sciences
Polyhydroxyalkanoates
47%
Chitin
39%
Biopolymers
37%
Glucans
32%
Pseudomonas chlororaphis
25%
Polymers
24%
Yeasts
15%
3-hydroxyoctanoic acid
13%
3-Hydroxybutyric Acid
12%
beta-hydroxyvaleric acid
12%
Polysaccharides
11%
Mannose
11%
Pseudomonas
11%
Chitosan
10%
Skin
10%
Hydrogels
10%
Glycerol
10%
Fungi
9%
Mannans
9%
Fruit
9%
Adhesives
9%
Vitrification
9%
Cell Wall
8%
Lasers
7%
Temperature
7%
Freezing
7%
Pharmaceutical Preparations
6%
poly(3-hydroxybutyrate)-co-(3-hydroxyvalerate)
5%
Safety
5%
rhodamine 6G
5%
Molecular Weight
5%
Swine
5%
Food Packaging
5%