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Self-assembled photoactive heterojunction phase gradient
G. Merle
*
,
David Bassett
, J. A. Finch
, G. Demopoulos
, J. E. Barralet
*
Corresponding author for this work
Chemical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
1
Citation (Scopus)
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Keyphrases
Photoactive
100%
Phase Gradient
100%
Heterojunction
100%
Current Density
75%
Anatase
75%
Photoactivity
50%
Room Temperature
25%
Rutile
25%
Deposition Time
25%
Self-assembly Method
25%
Flow Path
25%
Flow Direction
25%
Charge Carriers
25%
Path Length
25%
Sputter Coating
25%
Dip Coating
25%
Incident Light
25%
Nanostructured Electrode
25%
Base Layer
25%
Dye-sensitized Solar Cells
25%
Spatial Order
25%
High Photocatalytic Activity
25%
Photoanode
25%
Agglomerated Powder
25%
N3 Dye
25%
Short Current
25%
Rutile TiO2 Nanorods
25%
Doctor Blade
25%
Phase Heterojunction
25%
Chemistry
Current Density
100%
Titanium Dioxide
100%
electrode
66%
formation
33%
Ambient Reaction Temperature
33%
Base
33%
Charge Carrier
33%
Dye-Sensitized Solar Cell
33%
Nanorod
33%
Photocatalytic Activity
33%
Sintering
33%
Engineering
Heterojunctions
100%
Phase Gradient
100%
Photoactivity
40%
Room Temperature
20%
Deposition Time
20%
Sintering
20%
One Step
20%
Flow Path
20%
Flow Direction
20%
Charge Carrier
20%
Dip Coating
20%
Light Incident
20%
Pathlength
20%
Base Layer
20%
Nanorod
20%
Dye-Sensitized Solar Cell
20%
Self-Assembly Technique
20%
Material Science
Heterojunction
100%
Density
60%
Sintering
20%
Self Assembly
20%
Charge Carrier
20%
Dye-Sensitized Solar Cell
20%
Nanorod
20%