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Mechanisms of biochar enhanced Cu
2
O photocatalysts in the visible-light photodegradation of sulfamethoxazole
Meng Wei Zheng, Shan Jen Yang, Ying Chih Pu,
Shou Heng Liu
環境工程學系
研究成果
:
Article
›
同行評審
22
引文 斯高帕斯(Scopus)
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深入研究「Mechanisms of biochar enhanced Cu
2
O photocatalysts in the visible-light photodegradation of sulfamethoxazole」主題。共同形成了獨特的指紋。
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重量
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Engineering & Materials Science
Photodegradation
76%
Photocatalysts
72%
Electrons
47%
Hydroxylation
28%
Reaction intermediates
28%
Photocatalytic activity
26%
Oxygen vacancies
24%
Charge carriers
24%
Carrier concentration
22%
Band structure
22%
Degradation
22%
Coffee
21%
Paramagnetic resonance
21%
Decontamination
21%
Physicochemical properties
20%
Charge transfer
20%
Spectrum analysis
16%
Irradiation
16%
Nanoparticles
15%
Solar energy
14%
Oxidation
13%
Carbon
11%
Experiments
5%
Medicine & Life Sciences
biochar
100%
Photolysis
67%
Sulfamethoxazole
65%
Electrons
38%
Light
33%
Solar Energy
29%
Electrochemical Techniques
27%
Electron Spin Resonance Spectroscopy
20%
Decontamination
19%
Coffee
18%
Hydroxyl Radical
17%
Superoxides
16%
Carbon
15%
Genetic Recombination
15%
Nanoparticles
14%
Kinetics
11%
Oxygen
11%
Earth & Environmental Sciences
photodegradation
57%
biochar
50%
electron
33%
energy
23%
degradation
20%
coffee
19%
scavenger
18%
decontamination
17%
electron spin resonance
17%
recombination
17%
solar energy
17%
absorbance
17%
physicochemical property
16%
spectral analysis
14%
nanoparticle
14%
irradiation
14%
replacement
12%
diagram
12%
oxidation
10%
oxygen
10%
kinetics
9%
carbon
8%
removal
8%
material
6%
experiment
6%
Chemical Compounds
Sulfamethoxazole
63%
Photodegradation
43%
Electro Analytical Method
18%
Radical Scavenger
17%
Solar Energy
17%
Reaction Intermediate
16%
Electronic Band Structure
15%
Charge Carrier
15%
Energy
14%
Ring Opening Reaction
14%
Light Irradiation
13%
Photocatalytic Activity
12%
Electron Transfer
11%
Charge Transfer
11%
Resistance
10%
Electron Particle
8%
Nanoparticle
7%
Dioxygen
7%
Reduction
7%
Oxidation Reaction
7%
Social Sciences
energy
32%
solar energy
21%
efficiency
11%
experiment
9%
Group
4%