Effect of cationic polyacrylamides on the interactions between cellulose fibers.

The interaction between cellulose fibers in the presence of cationic polyacrylamide (CPAM) was analyzed by rheology as a function of polyelectrolyte concentration, charge density, and molecular weight. CPAM was found to strongly influence the yield stress of cellulose suspensions; low doses of CPAM increased the yield stress, but at higher concentrations the yield stress declined. The charge density of the CPAM was the most significant factor in how yield stress responded to CPAM concentration; this effect was able to be normalized to a master curve by considering only the charged fraction of the polymer.

Complexity in nanoparticle assembly and function obtained by direct-grafted peptides.

We synthesize peptide-functionalized nanoparticles by growing the peptide directly from the nanoparticles in a grafting-from process. We demonstrate the procedure by grafting a short, pH and oxidation responsive peptide sequence from 300 nm silica nanoparticles. The peptide allows destabilization of the particles in response to pH by neutralization of electrostatic charge, while manipulation of oxidizing conditions in the system offers the ability to select for irreversible, covalent bonding between the particles.

Peptides grafted from solids for the control of interfacial properties.

We have used solid-phase peptide synthesis to graft a peptide monolayer from a solid in order to modify the interfacial properties. We grafted a 15-residue peptide, EKEKEKEKEKEKEGG, containing a zwitterionic sequence of alternating lysine and glutamic acid residues from the surface of an aminosilanized silicon wafer by placing the silicon wafer within a commercial microwave peptide synthesizer. Such synthesizers are routinely used to make peptides on porous beads, but the peptides are subsequently cleaved and used independently of the solid support; our aim is to utilize the covalently bound peptide to control the surface properties without the need for cleavage and reattachment.

Surface chemistry and rheology of polysulfobetaine-coated silica.

We have measured the viscosity of suspensions of colloidal silica particles (d = 300 nm) and the properties of silica surfaces in solutions of a polymer consisting of zwitterionic monomer groups, poly(sulfobetaine methacrylate), polySBMA. This polymer has potential use in modifying surface properties because the polymer is net uncharged and therefore does not generate double-layer forces. The solubility of the polymer can be controlled and varies from poor to good by the addition of sodium chloride salt.