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Enzyme stabilization by nano/microsized hybrid materials
Ee Taek Hwang,
Man Bock Gu
Department of Biotechnology
Research output
:
Contribution to journal
›
Review article
›
peer-review
340
Citations (Scopus)
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Chemical Compounds
Encapsulation
61%
Microsphere
60%
Nanofiber
60%
Industry
51%
Food
50%
Antimicrobial Agent
49%
Green
48%
Nanoparticle
35%
Energy
33%
Application
22%
Engineering & Materials Science
Hybrid materials
100%
Enzymes
81%
Stabilization
59%
Catalyst supports
20%
Mesoporous materials
14%
Enzyme immobilization
14%
Bioremediation
12%
Renewable energy resources
12%
Alginate
11%
Antibiotics
11%
Microspheres
10%
Sol-gels
10%
Nanofibers
10%
Biosensors
9%
Nanotechnology
9%
Encapsulation
8%
Biodiesel
8%
Silica
8%
Nanoparticles
7%
Industrial applications
7%
Biomass
7%
Recovery
5%
Industry
3%
Medicine & Life Sciences
Enzymes
38%
Immobilized Enzymes
32%
Renewable Energy
17%
Enzyme Stability
15%
Environmental Biodegradation
14%
Biofuels
14%
Technology
13%
Nanofibers
13%
Silica Gel
13%
Food Industry
12%
Biomass
12%
Biosensing Techniques
12%
Alginates
11%
Polymethyl Methacrylate
11%
Immobilization
10%
Microspheres
10%
Nanoparticles
9%
Anti-Bacterial Agents
6%
Earth & Environmental Sciences
stabilization
59%
enzyme
56%
material
28%
immobilization
14%
encapsulation
8%
alginate
8%
nanotechnology
8%
food industry
8%
industrial process
7%
antibiotics
7%
bioremediation
6%
alternative energy
6%
nanoparticle
6%
gel
6%
silica
5%
biomass
4%
chemical
3%
method
1%