Engineering & Materials Science
Bioconversion
91%
Biopolymers
80%
Ethylene glycol
74%
Cellulose
63%
Acids
63%
Pulp
63%
Characterization (materials science)
61%
Polydispersity
48%
Sunflower oil
35%
Molecular weight
35%
Carbohydrates
32%
Chain length
27%
Emulsions
25%
Biomaterials
23%
Fruits
22%
Melting point
20%
Evaporation
19%
Carbon dioxide
17%
Glucose
17%
Carbon
17%
Biomass
17%
Packaging
17%
Elastic moduli
16%
Biodegradability
16%
Emulsification
16%
Oxygen
15%
Tensile strength
15%
Shear thinning
15%
Biocompatibility
14%
Polymers
14%
Crystallinity
14%
Benzene
14%
Microorganisms
13%
Molar ratio
13%
Toxicity
13%
Bacteria
13%
Surface active agents
12%
Feedstocks
11%
Proteins
10%
Polyethylene terephthalates
10%
Monomers
9%
Sodium hydroxide
8%
Industry
8%
Dissolution
8%
Temperature
7%
Oils
7%
Lead compounds
6%
Plastics
5%
Medicine & Life Sciences
terephthalic acid
100%
Polyhydroxyalkanoates
94%
Malus
78%
Ethylene Glycol
71%
Cellulose
70%
Pseudomonas
65%
Polymers
52%
Conflict of Interest
49%
3-hydroxyoctanoic acid
40%
Elastomers
28%
Temperature
28%
Transition Temperature
27%
Vitrification
26%
Biopolymers
26%
Polyesters
24%
Biomass
24%
Bioreactors
23%
Fructose
22%
Carbon Dioxide
20%
Freezing
19%
Sucrose
19%
Sugars
18%
Fruit
18%
Industry
17%
Molecular Weight
16%
Hot Temperature
15%
Glucose
14%
Oxygen
13%
Polyethylene Terephthalates
9%
Plastics
7%
Chemistry
3-Hydroxybutyrate
85%
Biosurfactant
76%
Bioconversion
72%
Terephthalic Acid
69%
Biopolymer
56%
Ethylene Glycol
51%
Strain
42%
Sunflower Oil
28%
Liquid Film
28%
Polydispersity
25%
Young Modulus
21%
Carbohydrate
19%
Poly(3-Hydroxybutyrate)
19%
Emulsion
19%
Solvent Evaporation
15%
Rhamnose
15%
Crystallinity
14%
Glucuronic Acid
14%
Glucose
13%
Emulsification
12%
Mannose
12%
Biomaterial
12%
Emulsifying Agent
12%
Tensile Strength
12%
Biodegradability
12%
Galactose
12%
Melting Point
12%
Permeability
11%
Carbon Dioxide
11%
Industry
10%
Carbon Atom
9%
Dissolution
9%
Length
8%
Mixture
8%
Benzene
8%
Surfactant
7%
Weight
7%
Monomer
7%
Dioxygen
7%
Aqueous Solution
6%
Drop
5%