Keyphrases
Water Retaining Capacity
50%
Sodium Periodate Oxidation
50%
Alginate Hydrogel
50%
Jute Fiber
50%
Drylands
50%
Jute
33%
Water Swelling
25%
Water Content Ratio
25%
Wetting Time
21%
Simple Protocol
16%
Maximum Force
16%
NaIO4 Oxidation
16%
Lignocellulosic Fibers
16%
Fiber Crystallinity
16%
Maximum Stiffness
16%
Capillarity
14%
Multifunctional Properties
12%
Gelation Time
12%
Alginate Solution
12%
Time-homogeneity
12%
Alginate Concentration
12%
Response Surface Methodology
12%
Optimal Composition
12%
Design Matrix
12%
Desertification Process
12%
Land Degradation
11%
Capillary Rise Height
7%
Degraded Land
7%
Fabric Surface
7%
Cellulose Oxidation
7%
Water-binding
7%
Fiber Surface Chemistry
7%
Initial Growth
7%
Water Pollution Control
7%
Cellulose Molecule
7%
Atmospheric Pressure Dielectric Barrier Discharge
7%
Infrared Field
7%
Cover Soil
5%
Inoculum Type
5%
Soil Properties
5%
Mass Cultivation
5%
Sparse Vegetation
5%
Soil Stabilization
5%
Technological Achievements
5%
Soil Fertilization
5%
Dryland Restoration
5%
Microsite
5%
Mass Application
5%
High Solar Radiation
5%
Degraded Dryland
5%
Material Science
Jute Fiber
100%
Oxidation Reaction
62%
Wettability
50%
Fiber Structure
50%
Capillarity
25%
Dielectric Material
12%
Field Emission Scanning Electron Microscopy
12%
Attenuated Total Reflectance-Fourier Transform Infrared Spectroscopy
12%
Hydrophobic Surface
10%
Antioxidant Capacity
10%
Packaging Material
10%
Chemical Engineering
Alginate
100%
Hydrogel
50%
Sorption
33%
Zeta Potential
16%
Water Content
12%
Polysaccharide
12%
Natural Polymer
6%
Gelation
6%