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Photoelectrochemistry of oxalate on particulate TiO2 electrodes
JA Byrne
, BR Eggins
School of Engineering
Faculty Of Computing, Eng. & Built Env.
Research output
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Article
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peer-review
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Keyphrases
Oxalate
100%
Particulate
100%
Photoelectrochemistry
100%
TiO2 Electrode
100%
Photocurrent
42%
Cathode Compartment
42%
Fe3+
28%
Anodic
28%
Anode Compartment
28%
One-electron Oxidation
14%
Degradation Rate
14%
Photoanode
14%
Rutile
14%
TiO2 Powder
14%
P25 TiO2
14%
Degussa P25
14%
Photocatalytic Oxidation
14%
Immobilization
14%
Charge Carriers
14%
Photoelectrochemical Cell
14%
Conduction Band Electron
14%
Nanocrystalline Films
14%
TiO2 Surface
14%
Material Science
Electrode
100%
Titanium Dioxide
100%
Cathode
60%
Anode
60%
Film
40%
Oxidation Reaction
40%
Powder
20%
Surface
20%
Density
20%
Electronic Circuit
20%
Charge Carrier
20%
Nanocrystalline
20%
Photoelectrochemical Cell
20%
Titanium Alloys
20%
Ti-6Al-4V
20%
Chemistry
Photoelectrochemistry
100%
Oxalate
100%
Photocurrent
57%
Anode
42%
Cathode
42%
Electron Acceptor
14%
Titanium Alloy
14%
Short Circuit
14%
Photoelectrochemical Cell
14%
Micro Porosity
14%
Chemical Engineering
Nanocrystalline
16%