Keyphrases
Active Sites
17%
Aldehyde Oxidase
41%
Carbon Dioxide
21%
Carbon Dioxide Reduction
15%
Carbon Dioxide Utilization
25%
Chelation-enhanced Fluorescence
18%
CO2 Reduction Reaction (CO2RR)
25%
Cu(II)
45%
Cu2+ Reduction
18%
Cytochrome
18%
Cytochrome b5
18%
Denitrification
18%
Desulfovibrio Desulfuricans
19%
Dual-responsive
18%
Electroenzymatic
18%
Enhanced Fluorescence Detection
18%
Fluorescent Ligand
18%
Formate
32%
Formate Dehydrogenase
67%
Formate Oxidation
14%
Heme Proteins
16%
Heterometallic Clusters
18%
Hg(II)
18%
Hg2+ Detection
18%
Kinetic Study
15%
Ligand-mediated
18%
Mechanistic Insight
18%
Mechanistic Studies
16%
Mediated Catalysis
18%
Molybdenum
82%
Molybdenum Enzymes
22%
Molybdenum-copper
16%
Molybdoenzymes
40%
Multi-walled Carbon Nanotubes (MWCNTs)
16%
Ni(II)
14%
Nitric Oxide
51%
Nitric Oxide Detection
21%
Nitric Oxide Radical
20%
Nitric Oxide Reductase
28%
Nitrite
44%
Nitrite Reductase
20%
Nitrite Reduction
26%
Orange Protein
20%
Peroxidase-like Activity
14%
Rat Liver
20%
Rubredoxin
14%
Sulfur
23%
Tungsten
30%
Xanthine Dehydrogenase/oxidase
18%
Xanthine Oxidase
65%
Chemistry
8 Quinolinol
9%
8-Hydroxyquinoline
9%
Aldehyde
20%
Alkalinity
11%
Antifungal Agent
9%
Benzene
9%
Biocatalyst
12%
Bioelectrocatalysis
9%
Carbon Dioxide
62%
Carbon Dioxide Reduction
33%
Carbon Dioxide Utilization
32%
Chelation
18%
Cofactor
13%
Cysteine
10%
Cytochrome
18%
Density Functional Theory
22%
Dioxygen
14%
Dithiocarbamic Acid
9%
Electrochemical Reduction
18%
Electron Transport
26%
EPR Spectroscopy
65%
Fluorescence Spectroscopy
18%
Formate
54%
Formate Dehydrogenase
64%
formation
40%
Fuel Cell
9%
Heavy Atom Effect
9%
Heme
25%
Hydrazone
9%
Hydrogen Production
9%
Indole
9%
Intermolecular Force
9%
Kinetic Study
16%
Mechanistic Study
16%
Methane
9%
Molecular Structure
11%
Molybdenum
100%
Multi Walled Nanotube
9%
Nanocomposite
18%
Nitric Oxide
61%
Nitrite
37%
Nitrous Oxide
9%
Peroxidase
14%
Potassium Tert-Butoxide
9%
Spin Trapping
9%
Sulfide
9%
Sulfur Atom
10%
Sweet orange
21%
UV/VIS Spectroscopy
16%
Xanthine
39%
