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Trichoderma reesei cellulases in processing of cotton: Dissertation
Lea Heikinheimo
VTT Technical Research Centre of Finland
Research output
:
Thesis
›
Dissertation
›
Collection of Articles
Overview
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Dive into the research topics of 'Trichoderma reesei cellulases in processing of cotton: Dissertation'. Together they form a unique fingerprint.
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INIS
processing
100%
cellulases
100%
trichoderma reesei
100%
cotton
100%
losses
71%
weight
57%
enzymes
42%
cellulase
35%
mixtures
21%
hydrolysis
21%
cellulose
21%
molecular weight
21%
powders
21%
synergism
21%
levels
14%
applications
14%
washing
14%
modifications
7%
performance
7%
comparative evaluations
7%
fibers
7%
correlations
7%
chains
7%
proteins
7%
substrates
7%
molecules
7%
sugar
7%
color
7%
distribution
7%
removal
7%
catalysts
7%
equipment
7%
skin
7%
investigations
7%
sugars
7%
glucosidase
7%
fungi
7%
textiles
7%
cellobiose
7%
viscose
7%
interlocks
7%
genetic engineering
7%
textile industry
7%
peaches
7%
Keyphrases
Cellulase
100%
Cotton
100%
Trichoderma Reesei Cellulase
100%
Weight Loss
44%
Endoglucanase
38%
Trichoderma Reesei
22%
Cellobiohydrolase
22%
Strength Loss
22%
Mono-component
16%
Synergism
16%
Hydrolysis
11%
Reducing Sugar
11%
Cellulolytic
11%
Enzymatic Process
11%
Mechanical Action
11%
Pilling
11%
Cotton Fabric
11%
Denim
11%
Washing Effect
11%
Stone Washing
11%
Cellulosic Fibers
5%
Cellulose
5%
Glucosidase
5%
Lyocell
5%
Crystalline Region
5%
Amorphous Region
5%
Genetic Engineering
5%
Microcrystalline Cellulose
5%
Exoglucanase
5%
Enzyme System
5%
Synergistic Effect
5%
Cellobiose
5%
Viscose
5%
Environmentally Acceptable
5%
Enzyme Treatment
5%
Cellulosic Fabric
5%
Lower Limb Strength
5%
Textile Industry
5%
Degree of Hydrolysis
5%
Cellulose Chain
5%
Industrial Technology
5%
Cellulosic Substrate
5%
Process Application
5%
Highest Weight
5%
Specific Enzymes
5%
Soft Rot Fungi
5%
Molecular Weight Distribution
5%
Biological Products
5%
Efficient Catalyst
5%
Textile Processing
5%
Sugar Analysis
5%
Twill
5%
Pilling Property
5%
Mechanical Agitation
5%
Woven Fabric
5%
Interlock Fabric
5%
Loss Analysis
5%
Biofinishing
5%
Aftercare
5%
Peach
5%
Pilling Resistance
5%
Weight Reducing
5%
Time-to-treatment
5%
Low Weight
5%
Targeted Application
5%
Fabric Type
5%
Engineering
Strength Loss
100%
Mechanical Action
50%
Molecular Weight
50%
Reducing Sugar
50%
Molecular Mass
50%
Cotton Fabric
50%
Exoglucanase
25%
Cellulosics
25%
Synergistic Effect
25%
Pronounced Effect
25%
Knitted Fabric
25%
Fabric Type
25%
Lyocell
25%
Textile Processing
25%
Amorphous Region
25%
Mechanical Agitation
25%
Tested Fabric
25%
Crystalline Region
25%
Engineering
25%
Cellulose Fiber
25%
Molar Mass Distribution
25%
Material Science
Cellulase
100%
Enzymatic Hydrolysis
15%
Cotton Fabric
10%
Textile Material Processing
5%
Glucosidase
5%