Add to ORKGSemiconductors designated for solar water-splitting need to be simultaneously stable and efficient in the charge transfer over the interface to the aqueous electrolyte. Although InP(100) has been employed as photocathode for several decades, no experimental data on its initial interaction with water is available. We study reaction mechanisms of well-defined surfaces with water and oxygen employing photoelectron and in situ reflection anisotropy spectroscopy. Our findings show that reaction path and stability differ significantly with atomic surface reconstruction. While the mixed-dimer In-rich surface exhibits dissociative water adsorption featuring In–O–P rather than unfavorable In–O–In bond topologies, the H-terminated, P-rich surface rec...
The initial interaction of water with semiconductors determines the electronic structure of the soli...
Changes in chemical and physical properties resulting from water adsorption play an important role i...
III-V semiconductors such as InP are highly efficient light absorbers for photoelectrochemical (PEC)...
Semiconductors designated for solar water-splitting need to be simultaneously stable and efficient i...
Semiconductors designated for solar water splitting need to be simultaneously stable and efficient i...
In this work, we investigate the initial interaction of water and oxygen with different surface reco...
In this work, we investigate the initial interaction of water and oxygen with different surface reco...
Indium phosphide and derived compound semiconductors are materials often involved in high-efficiency...
We study the initial interaction of adsorbed H_2O with P-rich and Ga-rich GaP(100) surfaces. Atomica...
We study the initial interaction of adsorbed H2O with P rich and Ga rich GaP 100 surfaces. Atomical...
We study the initial interaction of adsorbed H2O with P-rich and Ga-rich GaP(100) surfaces. Atomical...
Solar water splitting is a promising approach to generate hydrogen as a sustainable fuel. In this pr...
The initial interaction of water with semiconductors determines the electronic structure of the soli...
The initial interaction of water with semiconductors determines the electronic structure of the soli...
Changes in chemical and physical properties resulting from water adsorption play an important role i...
III-V semiconductors such as InP are highly efficient light absorbers for photoelectrochemical (PEC)...
Semiconductors designated for solar water-splitting need to be simultaneously stable and efficient i...
Semiconductors designated for solar water splitting need to be simultaneously stable and efficient i...
In this work, we investigate the initial interaction of water and oxygen with different surface reco...
In this work, we investigate the initial interaction of water and oxygen with different surface reco...
Indium phosphide and derived compound semiconductors are materials often involved in high-efficiency...
We study the initial interaction of adsorbed H_2O with P-rich and Ga-rich GaP(100) surfaces. Atomica...
We study the initial interaction of adsorbed H2O with P rich and Ga rich GaP 100 surfaces. Atomical...
We study the initial interaction of adsorbed H2O with P-rich and Ga-rich GaP(100) surfaces. Atomical...
Solar water splitting is a promising approach to generate hydrogen as a sustainable fuel. In this pr...
The initial interaction of water with semiconductors determines the electronic structure of the soli...
The initial interaction of water with semiconductors determines the electronic structure of the soli...
Changes in chemical and physical properties resulting from water adsorption play an important role i...
III-V semiconductors such as InP are highly efficient light absorbers for photoelectrochemical (PEC)...
