Biologically-Inspired Recognition and Processing in Colloidal Systems. The proposed research will enhance the understanding of forces and adsorption in biologically-inspired synthetic systems, and thereby create new strategies for improving selective adsorption, stabilization, coagulation, and separation. The expected outcomes are: increased understanding of chiral interactions at surfaces, a technique for rapid measurement of surface selectivity, new and better agents for chiral separation, a ....Biologically-Inspired Recognition and Processing in Colloidal Systems. The proposed research will enhance the understanding of forces and adsorption in biologically-inspired synthetic systems, and thereby create new strategies for improving selective adsorption, stabilization, coagulation, and separation. The expected outcomes are: increased understanding of chiral interactions at surfaces, a technique for rapid measurement of surface selectivity, new and better agents for chiral separation, a reduction in the use of organic pollutants, new methods for colloidal processing that will enable the preparation of new materials, and new surface coatings for increasing the useful life-time of medical implants.Read moreRead less