Organic light emitting diode display structures and methods of forming

The invention claimed is: 1. A method for forming an organic light emitting diode (OLED) display structure, comprising: depositing two bus bars on a substrate in a first direction; depositing a first conductive layer on the substrate as a plurality of discrete islands in a second direction relative to the first direction; depositing a dielectric layer on a portion of the first conductive layer, wherein the dielectric layer includes a well having a portion of the first conductive layer exposed; depositing an organic light-emitting material into the well and on the dielectric layer in the second direction and between the two bus bars; depositing a second conductive layer on the organic light-emitting material in the second direction and between the two bus bars, wherein the second conductive layer is in direct contact with each of the bus bars on opposing sides thereof; and depositing an encapsulating layer on the second conductive layer in the second direction to cover a boundary of the second conductive layer. 2. The method of claim 1 , wherein an open mask is used during the depositing the organic light-emitting material such that the organic light emitting material is electrically isolated from the bus bars. 3. The method of claim 1 , wherein the each of the first conductive layers are associated with a respective sub-pixel. 4. The method of claim 1 , wherein each of the first conductive layers surround a respective well. 5. The method of claim 1 , wherein the organic light-emitting material is deposited in the well continuously in the second direction, and the encapsulating layer is deposited on the second conductive layer continuously in the second direction to fully cover the boundary of the second conductive layer. 6. The method of claim 1 , further comprising a plurality of third conductive layers formed in the first direction between the two bus bars, wherein the organic light-emitting material in the well comprises a sub-pixel of a plurality of sub-pixels defining a pixel column, and each of the plurality of third conductive layers include one or more first electrical contacts coupled to the second conductive layer and positioned between two pixel columns. 7. The method of claim 6 , wherein each of the one or more first electrical contacts are in electrical communication with the two bus bars via a transparent conductive layer. 8. The method of claim 6 , wherein the second conductive layer includes one or more second electrical contacts electrically coupled to the third conductive layer and positioned between two sub-pixels of the pixel column. 9. The method of claim 8 , wherein a transparent conductive layer is formed over the one or more first and second electrical contacts. 10. An organic light emitting diode substrate, comprising: a first conductive layer formed on a substrate in a first direction; a dielectric layer provided on a portion of the first conductive layer, wherein the dielectric layer includes a well; an organic material in the well and on the dielectric layer in a second direction relative to the first direction and between two bus bars and in contact with the first conductive layer; overhang structures comprising a second layer disposed on a first layer, the overhang structures having an overhang defined by the second layer with a second sidewall extending past a first sidewall of the first layer; a second conductive layer provided on the organic material in the second direction and between the two bus bars, wherein the second conductive layer is in direct contact with each of the bus bars on opposing sides thereof; and an encapsulating layer on the second conductive layer in the second direction to cover the second conductive layer. 11. The organic light emitting diode substrate of claim 10 , wherein the second direction is substantially orthogonal to the first direction. 12. The organic light emitting diode substrate of claim 10 , wherein the first conductive layer comprise a plurality of discrete conductive islands each associated with a respective well. 13. The organic light emitting diode substrate of claim 10 , wherein: the organic light-emitting material is provided in the well continuously in the second direction, the second conductive layer is provided on the organic material continuously in the second direction, and the encapsulating layer is provided on the second conductive layer continuously in the second direction to fully cover the second conductive layer. 14. The organic light emitting diode substrate of claim 10 , further comprising a plurality of third conductive layers formed in the first direction between the two bus bars, wherein the organic material in the well comprises a sub-pixel of a plurality of sub-pixels defining a pixel column, and each of the plurality of third conductive layers include one or more first electrical contacts coupled to the second conductive layer and positioned between two pixel columns. 15. An organic light emitting diode substrate, comprising: a first conductive layer formed on a substrate in a first direction; a dielectric layer provided on a portion of the first conductive layer, wherein the dielectric layer includes a well; an organic material in the well and on the dielectric layer in a second direction relative to the first direction and between two bus bars and in contact with the first conductive layer; a second conductive layer provided on the organic material in the second direction and between the two bus bars, wherein the second conductive layer is in direct contact with each of the bus bars on opposing sides thereof; a plurality of third conductive layers formed in the first direction between the two bus bars, wherein the organic material in the well comprises a sub-pixel of a plurality of sub-pixels defining a pixel column, and each of the plurality of third conductive layers includes one or more first electrical contacts coupled to the second conductive layer and positioned between two pixel columns, wherein the second conductive layer includes one or more second electrical contacts coupled to the third conductive layer and positioned between two sub-pixels of the pixel column; and an encapsulating layer on the second conductive layer in the second direction to cover the second conductive layer. 16. The organic light emitting diode substrate of claim 15 , wherein a transparent conductive layer is formed over the one or more first and second electrical contacts. 17. The organic light emitting diode substrate of claim 10 , wherein the encapsulation layer is disposed adjacent to the second sidewall and over an upper surface of the second layer. 18. The organic light emitting diode substrate of claim 10 , wherein the organic material and the second conductive material are disposed adjacent to the second sidewall and over an upper surface of the second layer. 19. An organic light emitting diode substrate, comprising: an anode layer formed on a substrate in a first direction; a dielectric layer provided on a portion of the anode layer, wherein the dielectric layer includes a well with portion of anode layer exposed; an organic material in the well and in contact with the anode layer and on the dielectric layer in a second direction orthogonal to the first direction; a cathode layer provided on the organic material in the second direction and between two bus bars, wherein the cathode layer is in direct contact with the bus bars at a cathode/bus bar interface on opposing sides thereof, wherein a width of the cathode in the first dire