Functionalization of a porous membrane with an adsorbed polyacid

What is claimed is: 1. A polyacid-coated porous membrane comprising: (a) a porous membrane substrate comprising a plurality of membrane pores; and (b) a polyacid layer adsorbed on surfaces of the membrane pores, the polyacid layer comprising a polyacid polymer comprising one or more of free acid carboxylic acid groups, free acid carboxylate groups, and protein affinity tag-binding ligands; wherein: the polyacid polymer comprises at least the protein affinity tag-binding ligands; the polyacid layer was deposited from a fluid mixture having a pH value lower than 4; and the polyacid-coated porous membrane has a free acid group content higher than that of an analogous polyacid-coated porous membrane in which the polyacid layer was deposited from a fluid mixture having a pH value of 4, but which has been otherwise prepared equivalently to the polyacid-coated porous membrane. 2. The polyacid-coated porous membrane of claim 1 , wherein the polyacid layer is adsorbed on the surfaces of the membrane pores due to one or more of hydrophobic interactions, hydrogen bonding interactions, and ionic interactions. 3. The polyacid-coated porous membrane of claim 1 , wherein the protein affinity tag-binding ligand comprises derivatized free acid groups of the polyacid polymer, the derivatized free acid groups comprising a metal-binding ligand and a metallic ion complexed with the metal-binding ligand in a metal-ligand complex. 4. The polyacid-coated porous membrane of claim 1 , wherein the protein affinity tag-binding ligand comprises a metal-binding ligand in repeating units of the polyacid polymer and a metallic ion complexed with the metal-binding ligand in a metal-ligand complex. 5. The polyacid-coated porous membrane of claim 1 , wherein the polyacid layer is adsorbed on the surfaces of the membrane pores due to one or more of hydrophobic interactions and hydrogen bonding interactions, and is substantially free of covalent attachments to the surfaces of the membrane pores. 6. The polyacid-coated porous membrane of claim 1 , comprising a plurality polyacid layers adsorbed on surfaces of the membrane pores, each polyacid layer comprising a polyacid polymer comprising one or more of free acid carboxylic acid groups, free acid carboxylate groups, and protein affinity tag-binding ligands; wherein: the first polyacid layer in the plurality of polyacid layers is adsorbed directly on the surfaces of the membrane pores; one or more further polyacid layers in the plurality of polyacid layers are adhered to adjacent polyacid layers via one or more intervening polycation layers; and the polyacid layer that is exposed to membrane pore void volumes comprises a polyacid polymer comprising at least the protein affinity tag-binding ligand. 7. The polyacid-coated porous membrane of claim 6 , wherein the polycation layer is selected from the group consisting of polyethyleneimine (PEI), poly(allyl amine) (PAH), and combinations thereof. 8. The polyacid-coated porous membrane of claim 1 , wherein the polyacid polymer comprises polyacrylic acid (PAA). 9. The polyacid-coated porous membrane of claim 1 , wherein the polyacid layer is immobilized on the porous membrane substrate via one or more adhesion layers, wherein at least one of the adhesion layers is adsorbed directly on the porous membrane substrate. 10. The polyacid-coated porous membrane of claim 9 , wherein the adhesion layer comprises poly(styrene sulfonate) (PSS). 11. The polyacid-coated porous membrane of claim 1 , wherein the polyacid polymer comprises at least one of the free acid carboxylic acid groups and the free acid carboxylate groups. 12. The polyacid-coated porous membrane of claim 1 , wherein the polyacid polymer comprises the free acid carboxylic acid groups and the free acid carboxylate groups. 13. The polyacid-coated porous membrane of claim 1 , wherein the protein affinity tag-binding ligand comprises metallic ions. 14. The polyacid-coated porous membrane of claim 13 , wherein the metallic ions comprise Ni 2+ . 15. The polyacid-coated porous membrane of claim 13 , wherein the metallic ions comprise one or more of Cu 2+ , Co 2+ , Fe 3+ , and Ga 3+ . 16. The polyacid-coated porous membrane of claim 1 , wherein the protein affinity tag-binding ligands are selected from the group consisting of glutathione, glutathione-S-transferase (GST) tag binding derivatives, amylose, maltose binding protein (MBP) tag binding derivatives thereof, chitin, chitin binding protein (CBP) tag-binding derivatives thereof, and combinations thereof. 17. The polyacid-coated porous membrane of claim 1 , wherein the plurality of membrane pores has an average pore size ranging from 0.02 μm to 50 μm. 18. The polyacid-coated porous membrane of claim 1 , wherein the plurality of membrane pores comprises pores having a size of about 0.5 μm. 19. The polyacid-coated porous membrane of claim 1 , wherein the membrane has a protein binding capacity of at least about 90 mg protein/cm 3 of the membrane. 20. The polyacid-coated porous membrane of claim 1 , wherein the membrane has a protein binding capacity of about 90 to 135 mg protein/cm 3 of the membrane. 21. The polyacid-coated porous membrane of claim 1 , further comprising a target protein comprising an affinity tag, the target protein being bound via the affinity tag with the protein affinity tag-binding ligand of the membrane. 22. A polyacid-coated porous membrane comprising: (a) a porous membrane substrate comprising a plurality of membrane pores; and (b) a plurality of polyacid layers adsorbed on surfaces of the membrane pores, each polyacid layer comprising a polyacid polymer comprising free acid groups selected from the group consisting of carboxylic acid groups, carboxylate groups, and combinations thereof; wherein: the first polyacid layer in the plurality of polyacid layers is adsorbed directly on the surfaces of the membrane pores and is substantially free of covalent attachments to the surfaces of the membrane pores; one or more further polyacid layers in the plurality of polyacid layers are adhered to adjacent polyacid layers via one or more intervening polycation layers; the polyacid layers were deposited from a fluid mixture having a pH value lower than 4; and the polyacid-coated porous membrane has a free acid group content higher than that of an analogous polyacid-coated porous membrane in which the polyacid layers were deposited from a fluid mixture having a pH value of 4, but which has been otherwise prepared equivalently to the polyacid-coated porous membrane. 23. A polyacid-coated porous membrane comprising: (a) a porous membrane substrate comprising a plurality of membrane pores; and (b) a polyacid layer adsorbed on surfaces of the membrane pores, the polyacid layer comprising a polyacid polymer comprising free acid groups selected from the group consisting of carboxylic acid groups, carboxylate groups, and combinations thereof; wherein: the polyacid layer is adsorbed on the surfaces of the membrane pores via one or more adhesion layers and is substantially free of covalent attachments to the surfaces of the membrane pores, wherein at least one of the adhesion layers is adsorbed directly on the porous membrane substrate; the polyacid layer was deposited from a fluid mixture having a pH value lower than 4; and the polyacid-coated porous membrane has a free acid group content higher than that of an analogous polyacid-coated porous membrane in which the polyacid