Substrate for organic electronic device

The invention claimed is: 1. A substrate for an organic electronic device (OED), comprising: a transparent substrate having a main surface; an adhesive layer formed directly on the main surface of the transparent substrate, the adhesive layer being non-conductive; and a conductive pattern recessed in the adhesive layer, wherein the conductive pattern is exposed to a surface of the adhesive layer opposite to a surface of the adhesive layer directly attached to the transparent substrate, and the surface of the adhesive layer, which includes the exposed conductive pattern, is a planarized surface having a maximum height roughness in a range of 0.001 μm to 0.3 μm, wherein the planarized surface is a transfer surface of a releasable substrate, wherein the adhesive layer comprises a matrix of the adhesive layer having a transmittance of 70% or more in a wavelength range of 400 nm to 700 nm and scattering particles having a different refractive index from the matrix of the adhesive layer, wherein an area of the conductive pattern exposed to the planarized surface is 0.1% to 40% of a total area of the planarized surface, and wherein a sheet resistance of the planarized surface on which the conductive pattern is exposed is 5Ω/□ or less. 2. The substrate for an OED of claim 1 , wherein the planarized surface is a surface on which the OED is formed. 3. The substrate for an OED of claim 1 , wherein the substrate is a transparent substrate having a transmittance of 50% or more, relative to light in a visible region. 4. The substrate for an OED of claim 1 , wherein the adhesive layer is an active energy ray curable adhesive layer. 5. The substrate for an OED of claim 2 , wherein an absolute value of a difference in a refractive index between the adhesive layer and the OED formed on the planarized surface is 1 or less. 6. The substrate for an OED of claim 1 , wherein the conductive pattern comprises a conductive polymer, a metal, an alloy or a carbon-based material. 7. An organic electronic device system, comprising: the substrate for an OED according to claim 1 ; and an OED formed on the planarized surface of the substrate. 8. The system of claim 7 , wherein the OED is an organic light emitting device. 9. A method of manufacturing a substrate for an OED, comprising: forming a conductive pattern directly on a release surface of a releasable substrate; forming a precursor material layer for an adhesive layer directly on the conductive pattern and a surface of the releasable substrate having the conductive pattern; laminating a transparent substrate directly on the precursor material layer of the adhesive layer, and converting the precursor material layer into the adhesive layer; removing the releasable substrate; wherein, in the forming of the precursor material of the adhesive layer directly on the releasable substrate on which the conductive pattern is formed, the precursor material of the adhesive layer comprises a precursor material of a matrix of the adhesive layer having a transmittance of 70% or more in a wavelength range of 400 nm to 700 nm and scattering particles having a different refractive index from the matrix of the adhesive layer, wherein the conductive pattern is formed to be exposed to a surface of the adhesive layer opposite to a surface of the adhesive layer directly attached to the transparent substrate, and the surface of the adhesive layer, which includes the exposed conductive pattern, is a planarized surface having a maximum height roughness in a range of 0.001 μm to 0.3 μm, and wherein the conductive pattern is formed to have a ratio of an area of the conductive pattern exposed to the planarized surface to be 0.1% to 40% of a total area of the planarized surface, for the substrate for an OED to have a sheet resistance of the planarized surface of 5Ω/□ or less, wherein the adhesive layer is non-conductive. 10. The method of manufacturing a substrate for an OED of claim 9 , wherein the conductive pattern is formed by printing a conductive paste or ink on a surface of the releasable substrate. 11. The method of manufacturing a substrate for an OED of claim 10 , wherein the printing method is screen printing, inkjet printing, offset printing, gravure printing or reverse gravure printing.