INIS
applications
31%
bicarbonates
15%
biodiesel fuels
15%
boron
22%
carbon
23%
carbon dioxide
38%
catalysts
19%
concentration
23%
conversion
16%
crystals
14%
density
16%
detection
32%
diamonds
22%
doped materials
25%
drilling fluids
15%
electrocatalysts
16%
electrochemistry
37%
electrodes
50%
fluids
37%
fuels
14%
gases
13%
gold
24%
graphene
40%
growth
13%
hematite
15%
hydrogen
19%
investigations
14%
nanocomposites
17%
nanomaterials
28%
nanoparticles
100%
nanostructures
68%
oils
37%
optimization
16%
oxides
36%
performance
39%
photocatalysis
31%
polymers
14%
production
14%
recovery
20%
reduction
37%
reviews
22%
salinity
15%
sensors
23%
shells
15%
stability
27%
surfaces
41%
synthesis
59%
titanium oxides
52%
values
31%
viscosity
18%
Keyphrases
Au Nanoparticles (AuNPs)
15%
Au Nanorods (AuNRs)
11%
Au-TiO2
17%
Bicarbonate
15%
Biodiesel
10%
Biopolymers
15%
Boron-doped Diamond
11%
Boron-doped Diamond Electrode
18%
Catalytic Activity
11%
Catalytic Performance
10%
Clay
16%
CO2 Electroreduction
9%
CO2 Reduction Reaction (CO2RR)
13%
Colloidal Stability
13%
Completion Fluid
41%
Core-shell
17%
Doxorubicin
13%
Drilling Fluid
16%
Electrocatalyst
13%
Electrochemical Sensor
12%
Enhanced Oil Recovery
26%
Glass Bubble
13%
Graphene Oxide
22%
Hematite Nanoparticles
19%
High Salinity
12%
High Temperature
13%
Hydrogen Evolution Reaction
13%
Iron Oxide
18%
Mesoporous
11%
MXene-based Composites
19%
Nanomaterials
19%
Nanoparticles
18%
Nanostructures
11%
Perforation
9%
Photoreduction
12%
Polyacrylamide (PAAm)
9%
Recent Advances
13%
Reduced Graphene Oxide
15%
Response Surface Methodology
14%
Rutile
39%
Sensor-based
12%
Starch
13%
Tait Equation
9%
Temperature Effect
10%
Ti3C2Tx
9%
Underbalanced
9%
Underbalanced Drilling
11%
Uric Acid
9%
Viscosity
18%
Xanthan Gum
14%