Processes for making a super-insulating core for a vacuum insulating structure

What is claimed is: 1 . A super-insulating material for use in an insulated structure, the super-insulating material comprising: a plurality of glass spheres defining interstitial spaces therebetween; a coating material disposed at least partially on outer surfaces of the plurality of glass spheres, wherein the plurality of glass spheres and the coating material define an adhering base material; and a silica-based material disposed on at least a portion of the adhering base material, wherein the coating material and the silica-based material occupy substantially all of an interstitial volume defined by the interstitial spaces. 2 . The super-insulating material of claim 1 , wherein the coating material is a functional group material. 3 . The super-insulating material of claim 2 , wherein the functional group material defines magnetic characteristics of the plurality of glass spheres to define positively charged glass spheres, and wherein the silica-based material is negatively charged and adheres to the positively charged glass spheres. 4 . The super-insulating material of claim 2 , wherein the functional group material is at least one of an amine functional group, a silanol functional group, and a silane functional group. 5 . The super-insulating material of claim 1 , wherein the coating material is a binder material. 6 . The super-insulating material of claim 5 , wherein the binder material generates adhesive surfaces of the plurality of glass spheres. 7 . The super-insulating material of claim 6 , wherein the silica-based material adheres to the adhesive surfaces via the binder material. 8 . The super-insulating material of claim 5 , wherein the binder material includes an organic binder. 9 . The super-insulating material of claim 5 , wherein the binder material includes at least one of cellulose, wax, polyethylene glycol, gelatin, starch, polyvinyl alcohol, polymethacrylates and sodium silicate. 10 . The super-insulating material of claim 1 , wherein the plurality of glass spheres are hollow glass spheres. 11 . The super-insulating material of claim 1 , wherein the silica-based material includes at least one of fumed silica and precipitated silica. 12 . The super-insulating material of claim 1 , wherein the silica-based material at least partially includes perlite. 13 . A super-insulating material for use in an insulated structure, the super-insulating material comprising: a plurality of perlite particles defining interstitial spaces therebetween; a coating material disposed at least partially on outer surfaces of the plurality of perlite particles, wherein the plurality of perlite particles and the coating material define an adhering base material; and a silica-based material disposed on at least a portion of the adhering base material, wherein the coating material and the silica-based material occupy substantially all of an interstitial volume defined by the interstitial spaces. 14 . The super-insulating material of claim 13 , wherein the coating material is a functional group material. 15 . The super-insulating material of claim 14 , wherein the functional group material defines magnetic characteristics of the plurality of perlite particles to define positively charged perlite particles, and wherein the silica-based material is negatively charged and adheres to the positively charged perlite particles. 16 . The super-insulating material of claim 14 , wherein the functional group material is at least one of an amine functional group, a silanol functional group, and a silane functional group. 17 . The super-insulating material of claim 13 , wherein the coating material is a binder material. 18 . The super-insulating material of claim 17 , wherein the binder material generates adhesive surfaces of the plurality of perlite particles, and the silica-based material adheres to the adhesive surfaces via the binder material. 19 . A super-insulating material for use in an insulated structure, the super-insulating material comprising: a plurality of insulating micro-spheres defining interstitial spaces therebetween; a coating material disposed at least partially on outer surfaces of the plurality of insulating micro-spheres, wherein the plurality of insulating micro-spheres and the coating material define an adhering base material; and a silica-based material disposed on at least a portion of the adhering base material, wherein the coating material and the silica-based material occupy substantially all of an interstitial volume defined by the interstitial spaces. 20 . The super-insulating material of claim 19 , wherein the plurality of insulating micro-spheres includes at least one of glass spheres and perlite.