Add to ORKGWe report that TiO₂ coatings formed via atomic layer deposition (ALD) may tune the activity of IrO₂, RuO₂, and FTO for the oxygen-evolution and chlorine-evolution reactions (OER and CER). Electrocatalysts exposed to ∼3–30 ALD cycles of TiO₂ exhibited overpotentials at 10 mA cm⁻² of geometric current density that were several hundred millivolts lower than uncoated catalysts, with correspondingly higher specific activities. For example, the deposition of TiO₂ onto IrO₂ yielded a 9-fold increase in the OER-specific activity in 1.0 M H₂SO₄ (0.1 to 0.9 mA cm_(ECSA)⁻² at 350 mV overpotential). The oxidation state of titanium and the potential of zero charge were also a function of the number of ALD cycles, indicating a correlation between oxidati...
Anatase and rutile TiO2 were investigated as stable supports for different multimetallic nanoparticl...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
We report that TiO₂ coatings formed via atomic layer deposition (ALD) may tune the activity of IrO₂,...
Nanostructured Ir/TiO2 electrodes are investigated toward the oxygen evolution reaction (OER) from w...
Atomic Layer Deposition (ALD) is a an excellent technique for depositing conformal thin films on com...
Atomic Layer Deposition (ALD) is a an excellent technique for depositing conformal thin films on com...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
The formation of strong metal support interactions (SMSI) is known for many metal/metal oxide system...
The formation of strong metal support interactions (SMSI) is known for many metal/metal oxide system...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
Ultra-thin aluminium oxide was grown on a rutile titanium dioxide surface by atomic layer deposition...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
Anatase and rutile TiO2 were investigated as stable supports for different multimetallic nanoparticl...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
We report that TiO₂ coatings formed via atomic layer deposition (ALD) may tune the activity of IrO₂,...
Nanostructured Ir/TiO2 electrodes are investigated toward the oxygen evolution reaction (OER) from w...
Atomic Layer Deposition (ALD) is a an excellent technique for depositing conformal thin films on com...
Atomic Layer Deposition (ALD) is a an excellent technique for depositing conformal thin films on com...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
The formation of strong metal support interactions (SMSI) is known for many metal/metal oxide system...
The formation of strong metal support interactions (SMSI) is known for many metal/metal oxide system...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
Ultra-thin aluminium oxide was grown on a rutile titanium dioxide surface by atomic layer deposition...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
Anatase and rutile TiO2 were investigated as stable supports for different multimetallic nanoparticl...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...
We establish a procedure for the fabrication of electrocatalytically active, nanoporous surfaces coa...