Novel Oxides for Cycled Hydrogen Production from Methane and Water Using a Temperature Swing

Abstract: overall performance by the addition of small amounts of base to reduce proton diffusion into unexposed regions. We can estimate the width of the etched voxel to be~1.0 lm. As the width of the voxel is much larger than that of the focal spot, the experimental conditions used to process the resist may not be optimized for achieving the smallest voxel. We are currently exploring other exposure and development conditions and modified resin systems to further improve the resolution in this type of 3D microlithograp… Show more

“…Nanoscale cerium oxide is also a very attractive high-surface-area catalyst for fuel cell applications. Kang and Wang (2003) have shown that it is possible to use cerium, terbium, and praseodymium oxide nanoparticles to produce H 2 for solid oxide fuel cell applications; this is a market that can be expected to grow significantly, leading to environmental dispersion of these materials as they are used and eventually discarded. Lanthanide oxides are used widely as phosphors for displays; nanoscale oxides of terbium, europium, samarium, etc.…”

Effect of cerium oxide nanoparticles on inflammation in vascular endothelial cells

“…Nanoscale cerium oxide is also a very attractive high-surface-area catalyst for fuel cell applications. Kang and Wang (2003) have shown that it is possible to use cerium, terbium, and praseodymium oxide nanoparticles to produce H 2 for solid oxide fuel cell applications; this is a market that can be expected to grow significantly, leading to environmental dispersion of these materials as they are used and eventually discarded. Lanthanide oxides are used widely as phosphors for displays; nanoscale oxides of terbium, europium, samarium, etc.…”

Effect of cerium oxide nanoparticles on inflammation in vascular endothelial cells

“…Ceria is a fluorite-structured rare earth oxide. It has been extensively studied and employed in various applications including polishing materials [14], UV blocks [15], catalysts [16] and fuel cells [17]. CeO 2 nanoparticles have been prepared using many different techniques including hydrothermal synthesis [18], reversed micelles route [19], mechanicalchemical synthesis [20] and sonochemical route [21].…”

Ultrasonic-induced synthesis of CeO2 nanotubes

“…There are also several emerging applications or processes for which rare earth oxides (particularly CeO 2 ) are currently being actively investigated. More specifically cerium oxide in mixed oxide formulation is a key component in catalyst materials for reforming and partial oxidation of methane and water gas shift reaction for "on board" hydrogen production [5][6][7][8][9]. Other applications include the use of REO as stabilizers/promoters in catalytic combustion reactions, and oxidation of organics for wastewater treatment [10].…”

The role of rare earth oxides as promoters and stabilizers in combustion catalysts