Abstract: A system and method to remove a polluting agent or contaminant, including but not limited to mercury, from the liquid phase of a process system using an adsorbent. In one exemplary embodiment, a magnetic or non-magnetic support with a chemisorbing or physisorbing sorbent is suspended in the liquid phase of a process system, under conditions in which the polluting agent binds to the adsorbent. The pollutant-bearing adsorbent may then be separated from the process system by either physical or magnetic means. The polluting agent may then disassociated from the adsorbent so the adsorbent is regenerated and capable of repeated use.

Abstract: An antibacterial agent composed of silver-containing aluminum sulfate hydroxide particles represented by the following formula (X-I) or (Y-I). (AgaBb-a)bAlcAx(SO4)y(OH)z.pH2O??(X-I) [AgaBb-a]b[Ti3-cAlc](SO4)y(OH)z.pH2O??(Y-I) The above antibacterial agent of the present invention provides antibacterial molded articles and further antifungal agents, cosmetics, antibacterial paper, antibacterial deodorizing sprays and agricultural chemicals when it is mixed with a resin.

Abstract: Alunite type compound particles represented by the following general formula (I) and having a specific value of D75/D25 when D25 is the particle diameter of particles which account for 25% of the total and D75 is the particle diameter of particles which account for 75% of the total in the cumulative particle size distribution curve measured by a laser diffraction method: Ma[Al1-xM?x]3(SO42?)y(OH)z.mH2O??(I) wherein M is at least one cation selected from the group consisting of Na+, K+, NH4+ and H3O+, M? is at least one cation selected from the group consisting of Cu2+, Zn2+, Ni2+, Sn4+, Zr4+ and Ti4+, and a, m, x, y and z satisfy 0.8?a?1.35, 0?m?5, 0?x?0.4, 1.7?y?2.5, and 4?z?7, respectively. The above particles of the present invention have a small average particle diameter, are spherical, disk-like or hexagonal and have an extremely narrow particle size distribution.

Abstract: An adsorbent is made by chemically attaching proper functional groups onto low cost precipitated silica surface under elevated temperature and pressure conditions. Functional groups are designed for particular targeted compounds. The resulting adsorbent has low production cost, high capacity and fast kinetics for adsorption applications. The resulting adsorbent also is very effective in adsorbing heavy metals such as mercury in high pH solutions.

Abstract: A system and method to remove a polluting agent or contaminant, including but not limited to mercury, from the liquid phase of a process system using an adsorbent. In one exemplary embodiment, a magnetic or non-magnetic support with a chemisorbing or physisorbing sorbent is suspended in the liquid phase of a process system, under conditions in which the polluting agent binds to the adsorbent. The pollutant-bearing adsorbent may then be separated from the process system by either physical or magnetic means. The polluting agent may then disassociated from the adsorbent so the adsorbent is regenerated and capable of repeated use.

Abstract: The subject of the invention is a process for removal or separation of agents from dynamic process systems, particularly when the agent may be hazardous. Its primary embodiment lies in the removal of mercury from the exhaust from fossil fired heating systems, however, it can be seen as also applicable to many other types of separation processes. The process uses a regenerable and recyclable magnetic substrate having a sorbent attached thereto. The combination of the magnetic substrate and sorbent is referred to as a magnetic carrier.

Abstract: A microemulsion containing water, a densified fluid, a surfactant, and an organometallic catalyst is used to catalyze chemical reactions. The organometallic catalyst preferably has substantial solubility in the water phase of the microemulsion. Separation of reaction products from the microemulsion is facilitated by removal of the densified fluid.

Abstract: A fuel cell electrode catalyst comprises a supporting structure made of a metallic composition of carbon aerogel wherein the carbon aerogel has a surface area of greater than about 400 square meters per gram (m2/g) and a pore size of greater than about 4 nm and up to about 50 nm. The crystals of a metal dispersed on the supporting structure are about 1 nm to about 3 nm in diameter. A membrane electrode assembly for a fuel cell comprises a solid electrolyte membrane and catalyst paste, slurry, or ink, disposed on the solid electrolyte membrane wherein the catalyst paste, slurry, or ink comprises a metallic composition of carbon aerogel in powder form and unagglomerated solid electrolyte and solvent dispersed within the carbon aerogel structure.

Abstract: A microemulsion containing water, a densified fluid, a surfactant, and an organometallic catalyst is used to catalyze chemical reactions. The organometallic catalyst preferably has substantial solubility in the water phase of the microemulsion. Separation of reaction products from the microemulsion is facilitated by removal of the densified fluid.