Water oxidation represents the anodic reaction in most of the photoelectrosynthetic setups for artificial photosynthesis developed so far. The efficiency of the overall process strongly depends on the joint exploitation of good absorber domains and interfaces with minimized recombination pathways. To this end, we report on the effective coupling of thin-layer hematite with amorphous porous nickel-iron oxide catalysts prepared via pulsed laser deposition. The rational design of such composite photoelectrodes leads to the formation of a functional adaptive junction, with enhanced photoanodic properties with respect to bare hematite. Electrochemical impedance spectroscopy has contributed to shed light on the mechanisms of photocurrent generati...
We present a sol–gel processed hematite–titania-based photoanode, which exhibits a photocurrent of u...
One possibility to partially satisfy the ever-increasing energy needs of modern society, without com...
Hematite photoelectrodes prepared via hydrothermal route were functionalized with a water oxidation ...
Water oxidation represents the anodic reaction in most of the photoelectrosynthetic setups for artif...
Water oxidation represents the anodic reaction in most of the photoelectrosynthetic setups for artif...
Integrated absorber/electrocatalyst schemes are increasingly adopted in the design of photoelectrode...
Recent research on photoanodes for photoelectrochemical water splitting has introduced the concept o...
Recent research on photoanodes for photoelectrochemical water splitting has introduced the concept o...
Recent research on photoanodes for photoelectrochemical water splitting has introduced the concept o...
Recent research on photoanodes for photoelectrochemical water splitting has introduced the concept o...
Integrated absorber/electrocatalyst schemes are increasingly adopted in the design of photoelectrode...
The study of the semiconductor/electrocatalyst interface in electrodes for photoelectrochemical wate...
We present a sol–gel processed hematite–titania-based photoanode, which exhibits a photocurrent of u...
Integrated absorber/electrocatalyst schemes are increasingly adopted in the design of photoelectrode...
Integrated absorber/electrocatalyst schemes are increasingly adopted in the design of photoelectrode...
We present a sol–gel processed hematite–titania-based photoanode, which exhibits a photocurrent of u...
One possibility to partially satisfy the ever-increasing energy needs of modern society, without com...
Hematite photoelectrodes prepared via hydrothermal route were functionalized with a water oxidation ...
Water oxidation represents the anodic reaction in most of the photoelectrosynthetic setups for artif...
Water oxidation represents the anodic reaction in most of the photoelectrosynthetic setups for artif...
Integrated absorber/electrocatalyst schemes are increasingly adopted in the design of photoelectrode...
Recent research on photoanodes for photoelectrochemical water splitting has introduced the concept o...
Recent research on photoanodes for photoelectrochemical water splitting has introduced the concept o...
Recent research on photoanodes for photoelectrochemical water splitting has introduced the concept o...
Recent research on photoanodes for photoelectrochemical water splitting has introduced the concept o...
Integrated absorber/electrocatalyst schemes are increasingly adopted in the design of photoelectrode...
The study of the semiconductor/electrocatalyst interface in electrodes for photoelectrochemical wate...
We present a sol–gel processed hematite–titania-based photoanode, which exhibits a photocurrent of u...
Integrated absorber/electrocatalyst schemes are increasingly adopted in the design of photoelectrode...
Integrated absorber/electrocatalyst schemes are increasingly adopted in the design of photoelectrode...
We present a sol–gel processed hematite–titania-based photoanode, which exhibits a photocurrent of u...
One possibility to partially satisfy the ever-increasing energy needs of modern society, without com...
Hematite photoelectrodes prepared via hydrothermal route were functionalized with a water oxidation ...