Abstract: This invention resides in using metal complex-activated particles to bind molecules, polymers and other particles to each other, so as to produce multifunctional conjugates having controlled ratios of two or more different molecules.

Abstract: This invention resides in using metal complex-activated particles to bind molecules, polymers and other particles to each other, so as to produce multifunctional conjugates having controlled ratios of two or more different molecules.

Abstract: The present invention relates to a method of controlled competitive exchange of a first agent bound to a metal coordination complex with a competing agent, with selection of the nature of the first agent allowing a tailoring of the binding strength and thereby allowing for a desired level of control for subsequent displacement by the selected competing agent. The method may be employed for release of therapeutic agents, sequestration of larger molecules from a sample, generation of a preferred binding surface and the like.

Abstract: The invention relates to formulations comprising: (i) a first active material; (ii) a second active material; and (iii) a metal-coordination complex, wherein the first active material and the second active material have at least one surface property which is different, one from the other. Such formulations are more homogenous than those formed without the metal-coordination complex and can be used to form composite materials, such as those forming part of a conductive interface, having advantageous properties and providing for improvement in functionality of the conductive interface.

Abstract: The present invention relates to the coating of a range of functional heparins onto the surface of a substrate for which hemocompatibility is a key functional characteristic, such that the functionality of the functional heparin is maintained. The approach employs a metal coordination complex to bind to the substrate with the functional heparin binding to the metal coordination complex to thereby impart hemocompatibility.

Abstract: The present invention relates to reagents and methods for binding compounds to surfaces that are hydrophobic. More specifically, the invention relates to simple methods for coating of hydrophobic planar, membrane or particle surfaces to facilitate binding of molecules such as labels, dyes, synthetic and biological polymers and/or nanoparticles thereto.

Abstract: The present invention describes the use of metal-ligand complexes within the active material of an electrode to provide for improvement in operation as well as to mitigate the cyclic stresses of swelling of the active material during charging and discharging operations and to provide resistance to dissolution of electrode active materials.

Abstract: The invention relates to formulations comprising: (i) a first active material; (ii) a second active material; and (iii) a metal-coordination complex, wherein the first active material and the second active material have at least one surface property which is different, one from the other. Such formulations are more homogenous than those formed without the metal-coordination complex and can be used to form composite materials, such as those forming part of a conductive interface, having advantageous properties and providing for improvement in functionality of the conductive interface.

Abstract: The present invention relates to the coating of a range of functional heparins onto the surface of a substrate for which hemocompatibility is a key functional characteristic, such that the functionality of the functional heparin is maintained. The approach employs a metal coordination complex to bind to the substrate with the functional heparin binding to the metal coordination complex to thereby impart hemocompatibility.

Abstract: The present invention describes the use of metal-ligand complexes within the active material of an electrode to provide for improvement in operation as well as to mitigate the cyclic stresses of swelling of the active material during charging and discharging operations and to provide resistance to dissolution of electrode active materials.

Abstract: This invention resides in using metal complex-activated particles to bind molecules, polymers and other particles to each other, so as to produce multifunctional conjugates having controlled ratios of two or more different molecules.

Abstract: A method of immobilising a target molecule on a substrate, which comprises exposing the target molecule to the substrate in the presence of a metal complex, wherein the target molecule is an unmodified target molecule, and wherein the metal complex is selected to provide a stable binding interaction between the target molecule and the substrate.

Abstract: A method of immobilizing a target molecule on a substrate, which comprises exposing the target molecule to the substrate in the presence of a metal complex, wherein the target molecule is an unmodified target molecule, and wherein the metal complex is selected to provide a stable binding interaction between the target molecule and the substrate.