Keyphrases
Molybdenite
100%
Heavy Metal Removal
100%
Growth Temperature
33%
Removal Efficiency
22%
Leaching
22%
Removal Mechanism
22%
Nanotechnology
11%
Adsorption
11%
Crystallization
11%
Mercury
11%
Electrostatic Force
11%
Water Treatment
11%
Growth Conditions
11%
Chemical Stability
11%
Valuable Insight
11%
Crystallinity
11%
Hydrothermal Synthesis
11%
MoS2 Film
11%
Poor Stability
11%
Delicate Balance
11%
Molybdenum Disulfide MoS2
11%
Redox Reaction
11%
Low Growth Temperature
11%
Flower-like
11%
Amorphous MoS2
11%
Molybdenum
11%
Large-scale Systems
11%
Synthesis Parameters
11%
Material Characterization
11%
Unconventional Water
11%
Nano-enabled
11%
Water Decontamination
11%
Mercury Removal
11%
Materials Synthesis
11%
Adsorbent Materials
11%
Removal Capacity
11%
Alumina Support
11%
Decontamination Technologies
11%
Adsorbent Stability
11%
Molybdate
11%
Material Science
Molybdenum
100%
Heavy Metal Removal
100%
Amorphous Material
66%
Film
33%
Crystalline Material
33%
Leaching
33%
Aluminum Oxide
33%
Hydrothermal Synthesis
33%
Complex System
33%
Redox Process
33%
Molybdate
33%
Materials Synthesis
33%
Decontamination Technology
33%