The invention relates to a method for preparing an adsorptive filter unit having extended useful cycle times and/or an extended service life, especially improved and/or greater resilience and/or resistance against biological contamination and/or biological fouling, in particular and adsorptive filter unit for treating and/or purifying a fluid medium.

A size-selective hemocompatible porous polymeric adsorbent system is provided, the polymer system comprises at least one crosslinking agent and at least one dispersing agent, and the polymer has a plurality of pores with diameters in the range from about 17 to about 40,000 Angstroms.

The present invention concerns the elimination of heavy metals, in particular mercury and possibly arsenic and lead, present in a gaseous or liquid effluent by means of a capture mass comprising a support essentially based on alumina obtained by the gel method and at least one element selected from the group constituted by copper, molybdenum, tungsten, iron, nickel and cobalt. The invention is advantageously applicable to the treatment of gas of industrial origin, synthesis gas, natural gas, gas phase condensates and liquid hydrocarbon feeds.

A method for solid-phase extraction and/or separation of one or more compounds of interest from a liquid sample which including: integrating a self-supporting porous monolith in a fluid duct wherein the self-supporting porous monolith is stationary in the fluid duct during the method and forms a filter in the fluid duct; passing the sample at least once through the porous monolith in the fluid duct over at least one portion of the porous monolith, the self-supporting porous monolith having a largest dimension less than or equal to 3 mm transverse to the fluid duct, the fluid duct having one or more open ends prior to integration, the or at least one of the ends remaining open during the step of integrating the porous monolith.

Porous zirconia particles exhibit high specificity to a protein to be immobilized thereto and are used in immobilization of the protein. The porous zirconia particles have a pore diameter D50, at which a ratio of a cumulative pore volume to a total pore volume is 50%, the pore diameter D50 being in a range of 3.20 nm or more and 6.50 nm or less; and a pore diameter D90, at which a ratio of a cumulative pore volume to a total pore volume is 90%, the pore diameter D90 being in a range of 10.50 nm or more and 100.00 nm or less. The total pore volume of the particles is greater than 0.10 cm.sup.3/g. D50, D90, and the total pore volume are determined based on a pore diameter distribution measured through a BET method.

Disclosed herein are methods, and compositions produced using the methods, including introducing porous substrate particles and a first reagent comprising a polymer to a solvent to provide a plurality of coated particles; and introducing a second reagent comprising a polymeric amine and a third reagent comprising a silane moiety and an amine moiety to the coated particles, thereby providing a plurality of functionalized, coated particles.

Zeolite-containing shaped bodies that remove potassium from a dialysis effluent with less dissolution of aluminum compared to the conventional treatment of dialysis effluent using a zeolite, and a method of adsorbing potassium using the shaped bodies.