Patent ID: 8217143

Claim:
A process for the fabrication of metallic nanoshells, which process comprises: (a) providing a first aqueous solution, which is a buffered solution of an apoferritin protein, wherein the apoferritin protein is selected from the group consisting of horse spleen ferritin and bacterial ferritin, each of the individual molecules of said apoferritin protein having molecular channels running therethrough from the outer periphery thereof to an inner core thereof, the channels having enabled removal of substantially all inorganic material from the inner core thereof; (b) providing an evenly-distributed loading of metal ions, wherein the metal ions are selected from the group consisting of transition metals and noble metals, among the apoferritin protein molecules of the first solution by forming a first admixture prepared by gradually admixing a second aqueous solution containing the metal ions with the first aqueous solution, the volume of the second aqueous solution employed, along with the concentration of metal ions in the second aqueous solution, being utilized along with the volume of the first aqueous solution employed and the concentration of apoferritin protein in the first aqueous solution, to calculate the number of metal atoms per individual apoferritin protein molecule in the first admixture, the optimum thereof being that number of metal atoms which is sufficient to provide a substantially integral, composite metallic nanoshell formed within, and attached to the wall of the hollow core, but which is insufficient to provide an integral, composite spherical metallic nanoparticle which, although formed within, and attached to the wall of the hollow core, has no empty space in the center thereof; (c) gradually admixing a third aqueous solution with the first admixture, the third aqueous solution containing a calculated excess of oxidizing agent for the metal ions employed; whereby metal ions enter into the hollow inner core of each of the apoferritin molecules through the molecular channels therein, chemical bonds being formed between the metal ions and functional groups located on the wall of the hollow core of each of the apoferritin molecules during oxidation of the metal ions by the oxidizing agent, so that as discrete metallic nanoparticles are formed and merged within the hollow core, a composite metallic nanoshell is formed on the wall of the hollow core and attached thereto, instead of a single, solid, composite metallic nanoparticle being formed within the core.