The conversion of water into clean hydrogen fuel using renewable solar energy can potentially be used to address global energy and environmental issues. However, conventional photocatalytic H₂ evolution from water splitting has low efficiency and poor stability. Hole scavengers are therefore added to boost separation efficiency of photoexcited electron–hole pairs and improve stability by consuming the strongly oxidative photoexcited holes. The drawbacks of this approach are increased cost and production of waste. Recently, researchers have reported the use of abundantly available hole scavengers, including biomass, biomass‐derived intermediates, plastic wastes, and a range of alcohols for H₂ evolution, coupled with value‐added chemicals pro...
Photocatalytic water splitting has been studied extensively as a promising technology for scalable a...
Photocatalysis, in its broader meaning, indicates catalytic processes initiated by light. The term i...
The photocatalytic production of hydrogen represents a fascinating way to convert and store solar en...
Photocatalytic hydrogen (H2) production and selective organic synthesis provide an environmentally f...
Merging hydrogen (H2) evolution with oxidative organic synthesis in a semiconductor-mediated photore...
The generation of renewable energy through photocatalysis is an attractive option to utilize the abu...
In recent decades, the use of photocatalysts in the evolution of hydrogen (H2) has received much att...
The necessity for developing clean energy technology has led to the surge in renewable energy resear...
The photocatalytic production of hydrogen represents a fascinating way to convert and store solar en...
Hydrogen production by water splitting is a holy grail of science, being one route to a non-fossil f...
Photocatalytic hydrogen (H2) production is a process that converts solar energy into chemical energy...
Efficient overall photocatalytic water splitting for hydrogen production is still a huge challenging...
Photocatalytic H2 generation via water splitting is increasingly gaining attention as a viable alter...
Solar light-driven water splitting provides a promising way to store and use abundant solar energy i...
Light driven water splitting associated with hydrogen production is a promising technology and an id...
Photocatalytic water splitting has been studied extensively as a promising technology for scalable a...
Photocatalysis, in its broader meaning, indicates catalytic processes initiated by light. The term i...
The photocatalytic production of hydrogen represents a fascinating way to convert and store solar en...
Photocatalytic hydrogen (H2) production and selective organic synthesis provide an environmentally f...
Merging hydrogen (H2) evolution with oxidative organic synthesis in a semiconductor-mediated photore...
The generation of renewable energy through photocatalysis is an attractive option to utilize the abu...
In recent decades, the use of photocatalysts in the evolution of hydrogen (H2) has received much att...
The necessity for developing clean energy technology has led to the surge in renewable energy resear...
The photocatalytic production of hydrogen represents a fascinating way to convert and store solar en...
Hydrogen production by water splitting is a holy grail of science, being one route to a non-fossil f...
Photocatalytic hydrogen (H2) production is a process that converts solar energy into chemical energy...
Efficient overall photocatalytic water splitting for hydrogen production is still a huge challenging...
Photocatalytic H2 generation via water splitting is increasingly gaining attention as a viable alter...
Solar light-driven water splitting provides a promising way to store and use abundant solar energy i...
Light driven water splitting associated with hydrogen production is a promising technology and an id...
Photocatalytic water splitting has been studied extensively as a promising technology for scalable a...
Photocatalysis, in its broader meaning, indicates catalytic processes initiated by light. The term i...
The photocatalytic production of hydrogen represents a fascinating way to convert and store solar en...