Add to ORKGConversion of solar energy into storable fuels, such as hydrogen from light-driven water splitting, will be the most viable future source of energy. To meet the world's energy demand, materials must be robust, based on earth-abundant elements, and efficient. We synthesized novel first-row transition metal oxide nanomaterials, using pulsed laser ablation in liqs. (PLAL). This method offers size and compn. control through many tunable exptl. parameters. Unlike electrodeposited catalysts, nanoparticles made by PLAL are suitable for mech. deposition on photoanodes in integrated solar water splitting devices. Mixed-metal materials were synthesized by adding metal ions into the aq. ablation liq. With PLAL, many different nanocatalysts can readily...
Diverse transition metal hydroxide nanostructures were synthesized by laser-induced hydrolysis in a ...
Nickel oxide is a cheap and efficient water oxidation catalyst (WOC). However, its application as an...
Surfactant-free, size- and composition-controlled, unsupported, <5-nm, quantum-confined cobalt oxide...
Conversion of solar energy into storable fuels, such as hydrogen from light-driven water splitting, ...
Global sustainable energy solns. remain one of the greatest challenges of the 21st century. Health a...
Conversion of solar energy into storable fuels is essential to meet future global energy demands. Ef...
Powering the Planet sustainably poses the greatest challenge to humankind. Harvesting solar energy b...
Surfactant-free mixed-metal hydroxide water oxidation nanocatalysts were synthesized by pulsed-laser...
Surfactant-free mixed-metal hydroxide water oxidation nanocatalysts were synthesized by pulsed-laser...
Diverse transition metal hydroxide nanostructures were synthesized by laser-induced hydrolysis in a ...
We are working on heterogeneous inorg. catalysts that could be part of scalable solar fuel devices. ...
Sustainable energy solns. impact every aspect of human life. National security, health, access to cl...
The contents of the present thesis can be divided into three parts. The first three chapters introdu...
Controlled synthesis of transition-metal hydroxides and oxides with earth-abundant elements have att...
Amorphous iron oxide nanoparticles were synthesized by pulsed-laser deposition (PLD) for functionali...
Diverse transition metal hydroxide nanostructures were synthesized by laser-induced hydrolysis in a ...
Nickel oxide is a cheap and efficient water oxidation catalyst (WOC). However, its application as an...
Surfactant-free, size- and composition-controlled, unsupported, <5-nm, quantum-confined cobalt oxide...
Conversion of solar energy into storable fuels, such as hydrogen from light-driven water splitting, ...
Global sustainable energy solns. remain one of the greatest challenges of the 21st century. Health a...
Conversion of solar energy into storable fuels is essential to meet future global energy demands. Ef...
Powering the Planet sustainably poses the greatest challenge to humankind. Harvesting solar energy b...
Surfactant-free mixed-metal hydroxide water oxidation nanocatalysts were synthesized by pulsed-laser...
Surfactant-free mixed-metal hydroxide water oxidation nanocatalysts were synthesized by pulsed-laser...
Diverse transition metal hydroxide nanostructures were synthesized by laser-induced hydrolysis in a ...
We are working on heterogeneous inorg. catalysts that could be part of scalable solar fuel devices. ...
Sustainable energy solns. impact every aspect of human life. National security, health, access to cl...
The contents of the present thesis can be divided into three parts. The first three chapters introdu...
Controlled synthesis of transition-metal hydroxides and oxides with earth-abundant elements have att...
Amorphous iron oxide nanoparticles were synthesized by pulsed-laser deposition (PLD) for functionali...
Diverse transition metal hydroxide nanostructures were synthesized by laser-induced hydrolysis in a ...
Nickel oxide is a cheap and efficient water oxidation catalyst (WOC). However, its application as an...
Surfactant-free, size- and composition-controlled, unsupported, <5-nm, quantum-confined cobalt oxide...