Keyphrases
Cu-catalyzed
100%
Dissolved Oxygen
100%
PH Effect
100%
Ampicillin
100%
Catalytic Degradation
100%
Cu(II)
27%
β-lactam Antibiotics
27%
Hydrolysis
18%
Environmental Conditions
9%
Natural Environment
9%
Oxidation Reaction
9%
Cu(I)
9%
Primary Amines
9%
Molar Ratio
9%
Oxidation Mechanism
9%
Degradation Rate
9%
Reactive Oxygen Species
9%
Acid Hydrolysis
9%
Lactams
9%
Environmental Risk
9%
Inherent Mechanism
9%
MS Analysis
9%
Antibiotic Degradation
9%
Antibiotic Control
9%
Time-of-flight MS
9%
Hydrolysis Mechanism
9%
L-phenylglycine
9%
Oxygen Conditions
9%
Quadrupole Time-of-flight
9%
Immunology and Microbiology
Oxidation
100%
Time-of-Flight Mass Spectrometry
100%
Antibiotic Degradation
100%
Complex Formation
100%
Chemistry
Ampicillin
100%
Enzymatic Hydrolysis
40%
Beta Lactam Antibiotic Agent
30%
Oxidation Reaction
10%
Degradation Rate
10%
Primary Amine
10%
Lactam
10%
Ampicillin(1-)
10%
Complexation
10%
Reactive Oxygen Species
10%
Time-of-Flight Mass Spectrometry
10%
Quadrupole
10%
Material Science
Oxidation Reaction
100%
Enzymatic Hydrolysis
80%
Complexation
20%
Time-of-Flight Mass Spectrometry
20%
Chemical Engineering
Dissolved Oxygen
100%
Antibiotic Degradation
100%
Agricultural and Biological Sciences
Ampicillin
100%
Enzymatic Hydrolysis
36%
β-Lactam antibiotic
27%
Time-of-Flight Mass Spectrometry
9%
Oxidation
9%