Abstract: A plasmonic nanostructure material having semiconductor nanocrystals or metal-oxide nanocrystals configured with point defects to provide localized surface plasmon resonance as a parameter for tuning the electronic structure of the nanocrystals. A method of preparing a plasmonic nanostructure material including: colloidal synthesis of nanocrystals to provide point defects resulting in localized surface plasmon resonance as a parameter for tuning the electronic structure of the nanocrystals; and depositing nanocrystals as a thin film, growing nanocrystals on a desired substrate, or drawing nanocrystals into a nanowire.

Abstract: A method for making a light emitting structure including: determine desired light emitting characteristics; prepare a plurality of nanostructure composites, wherein the plurality of nanostructure composites are configured to provide the desired light emitting characteristics and are configured with predetermined excitation characteristics; selecting a light emission source based on the predetermined excitation characteristics; providing a substrate for the plurality of nanostructure composites; and applying the plurality of nanostructure composites to the substrate such that the plurality of nanostructure composites receive light from the light emission source.

Abstract: A method of synthesizing a hybrid nanomaterial substrate for use in a light emitting structure is provided comprising the steps of: (a) defining one or more light emission characteristics for the light emitting structure; (b) selecting a nanocrystal and a compatible light emitting molecule; and (c) based on the light emission characteristics synthesizing a hybrid nanomaterial substrate by selectively varying the size of the nanocrystals in the substrate, and selectively bonding the light emitting molecules to surfaces of the nanocrystals, thereby synthesizing a nanomaterial structure that is operable to define a single illuminating entity operable upon application of a single excitation energy value to generate light emissions consistent with the light emission characteristics.

Abstract: A method for making a light emitting structure including: determine desired light emitting characteristics; prepare a plurality of nanostructure composites, wherein the plurality of nanostructure composites are configured to provide the desired light emitting characteristics and are configured with predetermined excitation characteristics; selecting a light emission source based on the predetermined excitation characteristics; providing a substrate for the plurality of nanostructure composites; and applying the plurality of nanostructure composites to the substrate such that the plurality of nanostructure composites receive light from the light emission source.

Abstract: A method of synthesizing a hybrid nanomaterial substrate for use in a light emitting structure is provided comprising the steps of: (a) defining one or more light emission characteristics for the light emitting structure; (b) selecting a nanocrystal and a compatible light emitting molecule; and (c) based on the light emission characteristics synthesizing a hybrid nanomaterial substrate by selectively varying the size of the nanocrystals in the substrate, and selectively bonding the light emitting molecules to surfaces of the nanocrystals, thereby synthesizing a nanomaterial structure that is operable to define a single illuminating entity operable upon application of a single excitation energy value to generate light emissions consistent with the light emission characteristics.