Engineering
Lignocellulosic Biomass
100%
Biofuel
100%
Saudi Arabia
100%
Microbial
54%
Lignocellulosics
45%
Hemicellulose
36%
Biodegradation
36%
Bioresource
27%
Lignocellulosic Material
27%
Phenolics
18%
Renewable Source
18%
Cell Wall Structure
9%
Ethanol Production
9%
Glycosidic Bond
9%
Rigidity
9%
Paper Mill
9%
Electron Acceptor
9%
Plant Biomass
9%
Bioethanol
9%
Complete Degradation
9%
Hemicellulases
9%
Biological Treatment
9%
Industrial Research
9%
Renewables
9%
Pretreatment
9%
Negative Effect
9%
Pulp and Paper Industry
9%
Industrial Application
9%
Environmental Damage
9%
Aromatics
9%
Synthetic Aperture Radar
9%
Alternative Fuel
9%
Biochemicals
9%
Complex Process
9%
Fossil Fuel
9%
Bioenergy
9%
Hazardous Chemical
9%
Environmental Assessment
9%
Agricultural and Biological Sciences
Biofuel
100%
Cellulase
63%
Laccase
36%
Hemicellulose
36%
Biodegradation
36%
Cell Wall
36%
Molecular Biology
18%
Xylose
18%
Microorganism
9%
Environmental Factor
9%
Streptomyces
9%
Fossil Fuel
9%
Escherichia coli
9%
Alternative Fuel
9%
Copurification
9%
Glucosidase
9%
Pretreatment
9%
Lignocellulose
9%
Bioethanol
9%
Polyphenol
9%
Biological Treatment
9%
Biochemistry, Genetics and Molecular Biology
Enzyme
100%
Cellulose
43%
Cellulase
37%
Biodegradation
25%
Laccase
25%
Xylanase
18%
Molecular Biology
12%
Xylose
12%
Microorganism
6%
Soil Microflora
6%
Glucosidase
6%
Structure Activity Relationship
6%
Copurification
6%
Streptomyces
6%
Escherichia coli
6%
Rigidity
6%
Bioenergy
6%