Display device

What is claimed is: 1 . A display device having a first pixel and a second pixel adjacent to the first pixel, the display device comprising: a substrate; a bank on the substrate, the bank being positioned in a border between the first and second pixels; a light-emitting element layer spreading over the first pixel, the second pixel, and the bank; a first electrode on a substrate side of the light-emitting element layer, the first electrode being formed individually for each of the first and second pixels; a second electrode on an opposite side of the light-emitting element layer from the first electrode, the second electrode spreading over the first and second pixels; and a third electrode on an opposite side of the bank from the substrate and in contact with the light-emitting element layer, the third electrode being positioned in an area overlapping with the bank in a plan view. 2 . The display device according to claim 1 , wherein different potentials are applied to the second and third electrodes, and a potential difference between the first and third electrodes is greater than a potential difference between the first and second electrodes. 3 . The display device according to claim 1 , wherein the second electrode has a slit in the area overlapping with the bank, and the third electrode is positioned in the slit and at the same layer as the second electrode. 4 . The display device according to claim 3 , wherein the first pixel is adjacent to a third pixel in a direction different from a direction in which the first pixel is adjacent to the second pixel, the third electrode has an extending portion extending along the border between the first and second pixels and a projecting portion projecting from the extending portion, and the projecting portion is positioned at least part of a border between the first and third pixels. 5 . The display device according to claim 1 , wherein the third electrode is positioned on an opposite side of the light-emitting element layer from the substrate and is covered with an insulating film in the area overlapping with the bank, and the second electrode covers the third electrode via the insulating film in the area overlapping with the bank. 6 . The display device according to claim 1 , wherein the third electrode is positioned between the light-emitting element layer and the bank. 7 . The display device according to claim 6 , wherein a recess is formed on a top surface of the bank, and the third electrode fills the recess. 8 . The display device according to claim 6 , wherein the light-emitting element layer has at least a light-emitting layer and a hole transport layer, and the third electrode is in contact with the hole transport layer. 9 . The display device according to claim 6 , wherein the light-emitting element layer has at least a light-emitting layer and a hole injection layer, and the third electrode is in contact with the hole injection layer. 10 . A display device having a plurality of pixels arranged in an image display area, the display device comprising: a plurality of light-emitting areas, each of the pixels including each of the light-emitting areas; a bank on a substrate and along a border of the pixels; a light-emitting element layer on the substrate, the light-emitting element layer having a stack of layers including a light-emitting layer and an auxiliary layer, the light-emitting layer being formed at least in the light-emitting areas and emitting light in response to injection of carriers, the auxiliary layer having carrier mobility and spreading over pixels; a plurality of pixel electrodes under the light-emitting element layer, each of the pixel electrodes being disposed in each of the pixels; a counter electrode on the light-emitting element layer; and a border electrode on the light-emitting element layer and in a border area between the pixels, the border electrode being electrically connected to the light-emitting element layer, wherein, when a potential enough to draw the carriers in the border area of the light-emitting element layer is applied to the border electrode, the border electrode absorbs the carriers. 11 . A display device having a plurality of pixels arranged in an image display area, the display device comprising: a plurality of light-emitting areas, each of the pixels including each of the light-emitting areas; a bank on a substrate and along a border of the pixels; a border electrode on the bank; a light-emitting element layer on the substrate, the light-emitting element layer having a stack of layers including a light-emitting layer and an auxiliary layer, the light-emitting layer being formed at least in the light-emitting areas and emitting light in response to injection of carriers, the auxiliary layer having carrier mobility and spreading over pixels; a plurality of pixel electrodes under the light-emitting element layer, each of the pixel electrodes being disposed in each of the pixels; a counter electrode on the light-emitting element layer, wherein the border electrode is electrically connected to the light-emitting element layer, and when a potential enough to draw the carriers in the border area of the light-emitting element layer is applied to the border electrode, the border electrode absorbs the carriers. 12 . The display device according to claim 10 , wherein the border electrode is formed at the same layer as the counter electrode. 13 . The display device according to claim 10 , wherein the counter electrode is made of a transparent conductive material formed throughout the image display area and applies a common reference potential to the pixels, the pixel electrode supplies as many carriers as correspond to an image signal for each pixel to the light-emitting element layer, and the border electrode is made of an opaque conductive material formed under the counter electrode. 14 . The display device according to claim 11 , wherein the counter electrode applies a common reference potential to the pixels, the pixel electrode supplies as many carriers as correspond to an image signal for each pixel to the light-emitting element layer, the light-emitting element layer has, as the auxiliary layer, a carrier transport layer or a carrier injection layer for the carriers supplied from the pixel electrode, and the light-emitting layer is stacked on the auxiliary layer. 15 . The display device according to claim 11 , wherein the bank has a recess on a top surface thereof, and the border electrode fills the recess. 16 . The display device according to claim 10 , wherein the counter electrode applies a common reference potential to the pixels, the pixel electrode supplies as many carriers as correspond to an image signal for each pixel to the light-emitting element layer, and a potential to make a potential difference between the border electrode and the pixel electrode greater than a potential difference between the pixel electrode and the reference potential is applied to the border electrode. 17 . The display device according to claim 11 , wherein the counter electrode applies a common reference potential to the pixels, the pixel electrode supplies as many carriers as correspond to an image signal for each pixel to the light-emitting element layer, and a potential to make a potential difference between the border electrode and the pixel electrode greater than a potential difference between the pixel electrode and the reference potential is applied to the border electrod