Engineering
Process Intensification
100%
Hydrolyzate
100%
Pentose
100%
Wheat Straw
100%
Co-Fermentation
100%
Hexose
100%
Cerevisiae
100%
Bioresource
100%
Energy Source
100%
Lignocellulosic Biomass
100%
Glucose Concentration
75%
Bioethanol Production
50%
Dry Matter
50%
Xylose Utilization
50%
Product Fermentation
50%
Pretreatment
50%
Process Stage
50%
Fermentation Liquor
50%
Process Condition
50%
Hemicellulose
50%
Global Warming
50%
Enzymatic Hydrolysis
50%
Monomer
50%
Sustainable Material
50%
Renewable Energy
50%
Fossil Resource
50%
Energy Requirement
33%
Specific Growth Rate
33%
Growth Phase
33%
Anaerobic Condition
33%
Selective Integration
33%
Evolutionary Engineering
33%
Process Integration
33%
Polyol
33%
Lignocellulosics
33%
Batch Reaction
25%
Initial Value
25%
Substrate Uptake
25%
Hydrolysate
25%
Protein Engineering
25%
Efficiency of Process
25%
Initial Concentration
25%
Batch Process
25%
Fermentation Industry
20%
Bioethanol
20%
Ethanol Production
20%
Mass Ratio
20%
Efficient Utilization
20%
Agricultural and Biological Sciences
Pentose
100%
Coenzyme
100%
Hexose
100%
Sulfite Liquor
100%
baker's yeast
100%
Xylose
50%
Xylitol
33%
Metabolism
16%
Bioethanol
16%
Biochemistry, Genetics and Molecular Biology
Scheffersomyces stipitis
100%
Anaerobic Growth
100%
Polymerization
100%
Xylitol
33%
T7 RNA Polymerase
33%
RNA Polymerase
33%
Arabinose
16%
Galactoside
16%
Enterobacteria Phage T7
16%
Homotetramer
16%
Cell Growth
11%
Pentose
10%