| Patent application number | Description | Published |
|---|
| 20090180941 | DEACTIVATION RESISTANT PHOTOCATALYSTS - The present disclosure relates to a fluid purification device that has a deactivation resistant photocatalyst having nanocrystallites of less than 14 nanometers (nm) in diameter with at least 200 m2 surface area/cm3 of skeletal volume in cylindrical pores of 5 nm in diameter or larger, with the mode of the pore size distribution 10 nm or more. | 07-16-2009 |
| 20090185966 | PREPARATION AND MANUFACTURE OF AN OVERLAYER FOR DEACTIVATION RESISTANT PHOTOCATALYSTS - A photocatalyst system for volatile organic compounds with two parts that include a photocatalyst layer on a substrate and a porous overlayer. The photocatalyst layer is reactive with volatile organic compounds when UV light is projected on it. The overlayer is situated on the photocatalyst layer. The overlayer is UV transparent and has an interconnected pore network that allows contaminated air to pass through the overlayer. The size and the shape of the interconnected pores acts to selectively exclude certain contaminants that can deactivate the photocatalyst. | 07-23-2009 |
| 20090239742 | LONG-LIVED HIGH VOLUMETRIC ACTIVITY PHOTOCATALYSTS - The present disclosure relates to nanocrystalline titanium dioxide (TiO | 09-24-2009 |
| 20100075836 | DEACTIVATION RESISTANT PHOTOCATALYST AND METHOD OF PREPARATION - A photocatalyst formed using a sol-gel process provides high photoactivity, increased photocatalyst lifetime, and improved resistance to performance degradation caused by siloxane-based contaminants. The photocatalyst is formed by a method including the steps of photocatalyst template creation, template conditioning, template refinement, and coating application. | 03-25-2010 |
| 20100190643 | DEACTIVATION RESISTANT PHOTOCATALYST AND METHOD OF PREPARATION - A photocatalyst formed using a sol-gel process provides high photo activity, increased photocatalyst lifetime, and improved resistance to performance degradation caused by siloxane-based contaminants. The photocatalyst comprises particles of photocatalytically-active oxide having a surface area of greater than about 190 m | 07-29-2010 |
| 20110003085 | Production Of Tailored Metal Oxide Materials Using A Reaction Sol-Gel Approach - A porous metal oxide is formed by creating a metal oxide material with a hydrolysis reaction in solution. The hydrolysis reaction or reaction products of a metal oxide precursor react simultaneously or in conjunction with a metal salt or a disassociation species of a metal salt. The metal oxide material is conditioned, and is refined to produce metal oxide particles having a porous structure containing crystallites. | 01-06-2011 |
| 20110027138 | Photocatalytic Device With Mixed Photocatalyst/Silica Structure - A catalytic device comprises a mixed structure of photocatalyst and silica. The mixed structure may be comprised of alternating layers of photocatalyst and silica, a layer having a uniform mixture of photocatalyst particles and silica particles, or a layer having a graded mixture of photocatalyst particles and silica particles. | 02-03-2011 |
| 20110117002 | SYSTEMS AND METHODS FOR REMOVAL OF CONTAMINANTS FROM FLUID STREAMS - A contaminant removal system for selectively removing contaminants from a fluid stream. The contaminant removal system has a catalytic reactor of the type that is susceptible to deactivating agents. The catalytic reactor is configured to remove contaminants from a fluid stream. The contaminant removal system has a first adsorbent device positioned upstream, with respect to the fluid stream direction, of the catalytic reactor, that is configured to remove the deactivating agents from the fluid stream. The contaminant removal system has a second adsorbent device positioned downstream, with respect to the fluid stream direction, of the catalytic reactor. The second adsorbent device is configured to remove undesirable byproducts that may be generated when the catalytic reactor removes contaminants from the fluid stream. | 05-19-2011 |
