INIS
adsorption
100%
synthesis
59%
zeolites
52%
removal
51%
water
49%
applications
49%
lanthanides
46%
adsorbents
44%
kinetics
39%
wastes
38%
oils
37%
glycols
36%
nanoparticles
35%
ions
35%
kaolin
34%
extraction
33%
aqueous solutions
31%
dyes
29%
solutions
29%
photocatalysis
29%
production
27%
bauxite
27%
pectins
27%
anions
27%
values
27%
graphene
26%
leaching
26%
methylene blue
24%
thermodynamics
23%
samarium
23%
performance
23%
comparative evaluations
23%
efficiency
22%
graphite
22%
phase change materials
22%
concentration
21%
ligands
20%
surfaces
20%
titanium oxides
19%
absorption
18%
toxicity
18%
lanthanum
18%
carbon dioxide
18%
enrichment
17%
oxides
17%
capacity
17%
clinoptilolite
16%
fluorescence
16%
precipitation
15%
cerium oxides
15%
Keyphrases
Picrate
61%
Chitosan
55%
Lanthanides
44%
Aqueous Solution
43%
Triethylene Glycol
41%
Pectin
40%
Adsorption
40%
Picrate Anion
39%
Adsorbent
38%
Lanthanum
34%
Graphite Waste
31%
Zeolite A
31%
Anions
30%
Picrate Complex
30%
Pentaethylene Glycol
28%
Kaolin
27%
Hydrogen Peroxide
27%
Hydrogen Bonds (H-bonds)
25%
Phase Change Material
24%
Low-grade Bauxite
23%
Photoluminescence Properties
23%
Methylene Blue
23%
Adsorption Process
22%
Kinetic Mechanism
22%
Indonesian Low Grade Bauxite
22%
Chitosan Composites
22%
Samarium
20%
Photocatalytic Degradation
19%
Sulfuric Acid
19%
Oxygen Atom
19%
Europium
19%
Acanthamoeba
19%
Tetraethylene Glycol
19%
Yttrium
19%
Coordination number
18%
18-crown-6
18%
Graphene Oxide
18%
Clinoptilolite Zeolite
18%
Photoluminescence Spectra
18%
Graphite
18%
Thermodynamic Kinetics
17%
Durian Rind
17%
Erbium(III) Complex
17%
Simultaneous Adsorption
17%
Rhodamine B (Rh B)
17%
Organic Light-emitting Diodes
17%
Bidentate
16%
Chelates
16%
Rutile
16%
Beeswax
15%