Abstract: The superconductive nanocomposite is a composition formed by nanoparticles of a high temperature superconductor blended with a polymer matrix containing natural rubber and polyethylene. The high temperature superconductor is preferably a bismuth-based superconductor (BSCCO) having a particle size of about 21 nm, but may be any other high temperature or Type II ceramic, metal oxide superconductor. The superconductor nanoparticles comprise about 15% of the weight of natural rubber in the composition. The polyethylene is preferably low density polyethylene and may comprise between 0% up to about 40% of the weight of natural rubber in the composition. The nanocomposite may be prepared by blending the components and roll milling the rubber.

Abstract: The vanadium sesquioxide nanocomposite is useful for applications in thermistors, current switching devices, static charge dissipation devices, and electromagnetic shielding. Vanadium sesquioxide nanoparticles are produced using a sol-gel process that results in a V2O5 gel. The gel is heated in a reducing atmosphere of about 5% H2-95% argon at 850° C. for about four hours. The resulting product is dried at about 50° C. for twenty-four hours to produce V2O3 powder having particles about 23 nm in size. The nanocomposite is prepared by mixing the sesquioxide nanoparticles with epoxy resin and hardener in a centrifuge, casting the mixture in a Teflon mold, heating the mixture at 60° C. for 30 minutes, and curing the product at 150 KN/m2 at 100° C. for two hours. The nanocomposite contains about 80-90 wt % epoxy resin-hardener mixture and about 10-20 wt % vanadium sesquioxide nanoparticles.