Ceramic electrical insulation coating

What is claimed is: 1. A green coated wire for superconducting applications, the green coated wire comprising: a Bi-2212 wire comprising an Ag-alloy sheath; a base coat surrounding the Ag-alloy sheath of the Bi-2212 wire, the base coat comprising: 15% by weight TiO 2 powder, 5% by weight polyvinyl butyral, 1% by weight polysilicate sol-gel, 78% by weight xylene ethanol=1:1, 0.5% by weight butyl benzoyl phthalate, and 0.5% by weight polyalkylene glycol; and a top coat surrounding the base coat, the base coat surrounding the Ag-alloy sheath of the Bi-2212 wire, wherein the top coat comprises a polyacrylic binder, wherein the top coat does not dissolve in the base coat and a decomposing temperature of the top coat is substantially equal to, or lower than, a decomposing temperature of the first binder and the second binder. 2. The green coated wire of claim 1 , wherein the base coat surrounding the Bi-2212 wire is about 10 μm thick and the top coat is about 1 μm thick. 3. The green coated wire of claim 1 , wherein a viscosity of the base coat ranges from about 200 to about 250 cPs at 21° C. 4. The green coated wire of claim 1 , wherein a surface tension of the base coat ranges from about 20 to about 30 mN/m. 5. A green coated wire for superconducting applications, the green coated wire comprising: a Bi-2212 wire comprising an Ag-alloy sheath; a base coat surrounding the Ag-alloy sheath of the Bi-2212 wire, the base coat comprising: at least one ceramic powder; a first binder comprising polyvinyl butyral, wherein a ratio of the ceramic powder to the first binder is between about 2.5:1 and 3.5:1 by weight; a second binder comprising a polysilicate; two plasticizers; wherein the second binder comprising a polysilicate is non-reactive with the Ag-alloy sheath of the Bi-2212 wire; and a top coat surrounding the base coat, the base coat surrounding the Ag-alloy sheath of the Bi-2212 wire, wherein the top coat comprises a polyacrylic binder, wherein the top coat does not dissolve in the base coat and a decomposing temperature of the top coat is substantially equal to, or lower than, a decomposing temperature of the first binder and the second binder, wherein the base coat surrounding the Ag-alloy sheath of the Bi-2212 wire is about 10 μm thick and the top coat is about 1 μm thick, and wherein the base coat surrounding the Bi-2212 wire comprises: 15% by weight TiO 2 powder; 5% by weight polyvinyl butyral; 1% by weight polysilicate sol-gel; 78% by weight xylene ethanol=1:1; 0.5% by weight butyl benzoyl phthalate; and 0.5% by weight polyalkylene glycol. 6. The green coated wire of claim 5 , wherein a viscosity of the base coat ranges from about 200 to about 250 cPs at 21° C. 7. The green coated wire of claim 5 , wherein a surface tension of the base coat ranges from about 20 to about 30 mN/m. 8. A heat treated coated wire for superconducting applications, the heat treated coated wire comprising: a Bi-2212 wire comprising an Ag-alloy sheath, wherein a diameter of the Bi-2212 wire is 0.8 mm and wherein the Ag-alloy sheath is in contact with the Bi-2212 wire; a porous coating surrounding the Ag-alloy sheath of the Bi-2212 wire, wherein the porous coating is positioned on top of the Ag-alloy sheath of the Bi-2212 wire, wherein the porous coating exhibits a porosity that provides a pathway for oxygen permeability, wherein the porous coating has a thickness of about 7 μm, and wherein the porous coating comprises; at least one sintered ceramic powder comprising a plurality of interconnected ceramic powder particles; a partially decomposed polysilicate, wherein the partially decomposed polysilicate is non-reactive with the Ag-alloy sheath of the Bi-2212 wire; and silicon dioxide decomposed from the polysilicate, wherein the porous coating is formed from a base coating composition comprising: 15% by weight TiO 2 powder; 5% by weight polyvinyl butyral; 1% by weight polysilicate sol-gel; 78% by weight xylene ethanol=1:1; 0.5% by weight butyl benzoyl phthalate; and 0.5% by weight polyalkylene glycol. 9. The heat treated coated wire of claim 8 , wherein the porous coating does not degrade the transport critical current of the Bi-2212 wire.