A chromatography method in which a gaseous, liquid or supercritical mobile phase containing species to be separated is circulated through a packing. The packing includes a plurality of capillary ducts extending in the packing between an upstream face through which the mobile phase enters the packing and a downstream face through which the mobile phase leaves the packing. A continuous medium permeable to molecular diffusion extends between the ducts, including a porous organic gel or an organic liquid with at least one network of connected pores, the size of which is greater than two times the molecular diameter of at least one species to be separated. The at least one species has a diffusive path between the ducts.

A chromatography method in which a gaseous, liquid or supercritical mobile phase containing species to be separated is circulated through a packing. The packing includes a plurality of capillary ducts extending in the packing between an upstream face through which the mobile phase enters the packing and a downstream face through which the mobile phase leaves the packing. A continuous medium permeable to molecular diffusion extends between the ducts, including a porous organic gel or an organic liquid with at least one network of connected pores, the size of which is greater than two times the molecular diameter of at least one species to be separated. The at least one species has a diffusive path between the ducts.

The invention describes the process by which a standard mixture of organic compounds are spiked and retained onto a composite sorbent matrix for the controlled generation of a standard in fluid above the spiked matrix either in a gaseous or aqueous phase. The novelty of the aforementioned composite matrix stems from the combination of an immobilizing liquid phase such as silicone oil or a polyacrylonitrile solution, and solid, porous particles such as polystyrene-co-divinylbenzene (PS-DVB) or hydrophilic/Lipophilic Balance (HLB) particles to strongly retain the spiked standards. These novel composite mixtures exhibit sorptive capabilities greater than the sum of their individual components. In addition swelling of the particles with the liquid phase facilitates immobilization of the composite sorbent matrix in the vial. With thermodynamic equilibrium strongly favoring the sorbent phase for a wide range of chemical compounds, this invention allows for the reproducible generation of an ultra-low concentration standard analyte mixture in fluid.

The present disclosure provides materials and methods related to the purification of a biologic. The present disclosure provides materials and methods related to the purification of a biologic. In particular, the present disclosure provides a multifunctional chromatography medium comprising porous beads or particles having a defined pore diameter distribution and one or more ligands conjugated to the surface of the pores capable of removing process-related impurities and product-related impurities from a target biologic.

The present disclosure provides materials and methods related to the purification of a biologic. The present disclosure provides materials and methods related to the purification of a biologic. In particular, the present disclosure provides a multifunctional chromatography medium comprising porous beads or particles having a defined pore diameter distribution and one or more ligands conjugated to the surface of the pores capable of removing process-related impurities and product-related impurities from a target biologic.

The present disclosure relates to a super absorbent polymer exhibiting an improved absorption rate and improved absorption performance.

Provided are a novel chitosan compound represented by Formula (I) and a separating agent for optical isomers. In Formula (I), each R is independently a group represented by Formula (II) or a group represented by Formula (III); R.sup.a is an alkyl group having from 1 to 5 carbons or an alkyl group having from 3 to 5 carbons and having a branched chain; and n is an integer of 5 or greater; and in Formulas (II) and (III), each R.sup.b is independently an unsubstituted phenyl group, a phenyl group having a substituent, an unsubstituted cyclohexyl group, or a cyclohexyl group having a substituent, and each of the substituent is independently an alkyl group having from 1 to 5 carbons, or a halogen.

Provided are a novel chitosan compound represented by Formula (I) and a separating agent for optical isomers. In Formula (I), each R is independently a group represented by Formula (II) or a group represented by Formula (III); R.sup.a is an alkyl group having from 1 to 5 carbons or an alkyl group having from 3 to 5 carbons and having a branched chain; and n is an integer of 5 or greater; and in Formulas (II) and (III), each R.sup.b is independently an unsubstituted phenyl group, a phenyl group having a substituent, an unsubstituted cyclohexyl group, or a cyclohexyl group having a substituent, and each of the substituent is independently an alkyl group having from 1 to 5 carbons, or a halogen.

The present invention relates to a MXene nanosheet ink for palladium recovery, a method of manufacturing the same, a method of recovering palladium using a MXene nanosheet ink, an electrochemical catalyst using recovered palladium, and a method of manufacturing the same that are capable of significantly improving the recovery efficiency of palladium ions in water.

The present invention relates to a MXene nanosheet ink for palladium recovery, a method of manufacturing the same, a method of recovering palladium using a MXene nanosheet ink, an electrochemical catalyst using recovered palladium, and a method of manufacturing the same that are capable of significantly improving the recovery efficiency of palladium ions in water.