Solar water splitting using photoelectrochemical cells (PECs) has emerged as one of the
most promising routes to produce hydrogen as a clean and renewable fuel source. Among …

Photoelectrochemical CO2 reduction reaction (PEC CO2RR) is a promising technology
which offers the possibility of a carbon‐neutral solar fuel production via artificial …

Photoelectrochemical (PEC) water splitting can convert renewable solar energy into clean
hydrogen fuel. Photoelectrodes are the core components of water-splitting cells. In the past …

Tungsten oxide (WO3) is a promising photocatalytic material, but it has some limitations on
its optoelectronic properties. Compared with binary materials, ternary compounds provide a …

Direct water splitting in a photoelectrochemical device is a promising approach to store solar
energy in the form of green hydrogen. However, its implementation has been hindered by a …

α-SnWO4 is an n-type metal oxide semiconductor that has recently attracted attention as a
top absorber material in a D4-tandem device for highly efficient solar water splitting due to …

This study adopted a photo-assisted electrodeposition method to fabricate NiOOH on α-Fe 2
O 3 photoanode. The detailed microstructure and chemical composition characterizations …

α-SnWO4 is a potential catalyst for photoelectrochemical (PEC) water splitting with its
narrow band gap and suitable band position, while its PEC performance is restricted by poor …

Stannous tungstate (α-SnWO4) is a promising photoanode material for
photoelectrochemical (PEC) water splitting, but its practical performance is severely limited …

Recently, α-SnWO4 attracted attention as a material to be used as a top absorber in a
tandem device for photoelectrochemical water splitting due to its nearly optimum band gap …