Abstract: Coated colloidal materials, methods for making coated colloidal materials, and methods of using coated colloidal materials are disclosed. The method yields coated colloidal materials where the optical characteristics of the core is not adversely affected. The coated colloidal materials can be self-assembled into films, layers, or structures and used in the detection of analytes through detection assays.

Abstract: Provided is a direct write patterning method utilizing a mixture comprising an ink of choice and an ink carrier matrix. The method involves disposing the mixture on a tip or stamp and transporting the mixture from the tip or stamp on a surface to form a pattern that contains the ink. The method does not require chemical or physical modification of either the tip or stamp or the surface prior to transporting the mixture to the surface. The method can be applied for patterning hard inks such as nanomaterials and crystallized polymers and soft inks such as biomaterials including peptides and proteins. Also provided are related biomaterial and hard ink arrays.

Abstract: Coated colloidal materials, methods for making coated colloidal materials, and methods of using coated colloidal materials are disclosed. The method yields coated colloidal materials where the optical characteristics of the core is not adversely affected. The coated colloidal materials can be self-assembled into films, layers, or structures and used in the detection of analytes through detection assays.

Abstract: Disclosed herein are methods of screening sequence selectivity of oligonucleotide-binding molecules using a gold nanoparticle based colorimetric assay.

Abstract: The present invention concerns the use of binding agent-functionalized silver nanoparticles for a variety of uses, including molecular diagnostic labels, synthons in programmable materials synthesis approaches, and functional components for nanoelectronic devices. More specifically, the invention provides a new strategy for preparing silver nanoparticle-binding agent conjugates that are based upon moieties with triple cyclic disulfide-anchoring groups.

Abstract: Increasing the amount of DNA loaded onto gold nanoparticles is disclosed. More particularly, methods of maximizing DNA loading, using salting techniques, sonication, temperature and other such procedures are disclosed.

Abstract: Disclosed herein are methods of screening sequence selectivity of oligonucleotide-binding molecules using a gold nanoparticle based calorimetric assay.