Keyphrases
Room Temperature
100%
Catalytic Degradation
100%
Active Sites
100%
Oxygen Species
100%
Biocompatibility
100%
Electron Transfer
100%
Indoor Formaldehyde
100%
Copyright
50%
Strong Correlation
50%
Humidity
50%
Nanospheres
50%
Cytotoxicity
50%
Bimetallic
50%
Catalytic Activity
50%
Chemisorption
50%
Specific Surface Area
50%
Oxidation State
50%
Temperature Effect
50%
Superoxide Ion
50%
Self-assembly
50%
Hydrophilicity
50%
Formic Acid
50%
Surface Porosity
50%
Dry Air
50%
Cyclic Electron Flow
50%
Carbonyl Bonds
50%
Nucleophilic Attack
50%
Formaldehyde Removal
50%
Defect Sites
50%
Environmentally Friendly Applications
50%
Active Ions
50%
Surface Oxygen Species
50%
Dioxiranes
50%
Synchrotron Vacuum Ultraviolet Photoionization Mass Spectrometry
50%
Surface Oxidation
50%
Sub-ppm Level
50%
Yeast Cells
50%
Surface Electrons
50%
Moisture-dependent
50%
Transition Metal Oxides
50%
Dismutation
50%
Metal Oxide Catalyst
50%
Air Recycling
50%
Chemistry
Ambient Reaction Temperature
100%
Titanium Oxide
100%
Electron Transport
100%
Electron Transfer
100%
Formaldehyde
66%
Disproportionation
33%
Porosity
33%
Surface Area
33%
Superoxide
33%
Chemisorption
33%
Hydrophilicity
33%
Nanosphere
33%
Transition Metal Oxide
33%
Surface Oxygen
33%
Formic Acid
33%
Photoionization Mass Spectrometry
33%
Transition Metals
33%
Engineering
Room Temperature
100%
Oxygen Specie
100%
Active Site
66%
Hydrophilicity
66%
Limitations
33%
Relative Humidity
33%
Nanosphere
33%
Enzymatic Activity
33%
Specific Surface Area
33%
Porosity
33%
Formaldehyde Removal
33%
Defect Site
33%
Dry Air
33%
Material Science
Titanium Oxide
100%
Electron Transfer
100%
Biocompatibility
100%
Oxidation Reaction
33%
Transition Metal
33%
Self Assembly
33%
Superoxide
33%
Nanosphere
33%
Catalyst Activity
33%
Chemisorption
33%
Transition Metal Oxide
33%
Chemical Engineering
Titanium Oxide
100%
Transition Metal
66%
Formaldehyde
66%
Nanosphere
33%
Chemisorption
33%
Mass Spectrometry
33%
Formic Acid
33%