WHATIS CLAIMED IS:
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`1.
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`An emissive display device comprising:
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`a transistor disposed on a substrate;
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`a first insulating layer disposed on the transistor;
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`a separation line disposed onthefirst insulating layer;
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`a second insulating layer disposed on the first insulating layer, the second
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`insulating layer including a first opening overlapping the separation line in a plan
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`view;
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`a first pixel electrode and a secondpixel electrode disposed at opposite sides of
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`the separation line, the first pixel electrode and the second pixel electrode being
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`disposed on the second insulating layer;
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`a pixel defining layer disposed on the second insulating layer, the pixel defining
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`layer including a second opening overlapping the separation line in a plan view; and
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`an emission member disposed on the first pixel electrode, the second pixel
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`electrode, the pixel defining layer, and the separation line, the emission memberbeing
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`separated by the separationline,
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`wherein the emission memberincludes:
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`a first emission unit;
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`a charge generating layer disposed on thefirst emission unit; and
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`a second emission unit disposed on the charge generating layer.
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`2.
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`The emissive display device of claim 1, wherein
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`the charge generating layer includes an n-type charge generating layer and a p-
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`type charge generating layer, and
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`the charge generating layer is separated at opposite sides of the separationline.
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`3.
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`The emissive display device of claim 2, wherein the charge generating
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`layer has a portion disposed on the separationline.
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`4.
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`The emissive display device of claim 3, wherein
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`the separation line includes:
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`a first conductive layer;
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`a second conductive layer; and
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`a third conductive layer,
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`the first conductive layer, the second conductive layer, and the third conductive
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`layer are sequentially stacked, and
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`the charge generating layer electrically contacts a side surface of the first
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`conductive layer.
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`5.
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`The emissive display device of claim 4, wherein the charge generating
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`layer electrically contacts a side surface of the second conductivelayer.
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`6.
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`The emissive display device of claim 1, wherein
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`the separation line includes:
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`a first conductive layer;
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`a second conductive layer; and
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`a third conductive layer,
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`the first conductive layer, the second conductive layer and the third conductive
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`layer are sequentially stacked, and
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`a width of the third conductive layer is greater than a width of the second
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`conductive layer.
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`7.
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`The emissive display device of claim 6, wherein the third conductive
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`layer includes a transparent conductive oxidelayer.
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`8.
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`The emissive display device of claim 6, wherein
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`the third conductive layer includes:
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`a first transparent conductive oxidelayer;
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`a metal layer; and
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`a second transparent conductive oxide layer, and
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`the first transparent conductive oxide layer, the metal layer, and the second
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`transparent conductive oxide layer are sequentially stacked.
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`9.
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`The emissive display device of claim 6, wherein the third conductive
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`layer, the first pixel electrode, and the second pixel electrode include a same material,
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`and are formed in a sameprocess.
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`10.
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`The emissive display device of claim 6, further comprising:
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`a connector disposed on thefirst insulating layer, the connector being an
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`electrodeof the transistor, or the connector being electrically connected to the electrode
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`of the transistor, wherein
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`the connector includesa first conductive layer, a second conductive layer, and
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`a third conductive layer,
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`the first conductive layer of the connector, the second conductive layer of the
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`connector, and the third conductive layer of the connector are sequentially stacked,
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`the first conductive layer of the separation line and the second conductive layer
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`of the separation line, and the first conductive layer of the connector and the second
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`conductive layer of the connector include a same material, and
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`the third conductive layer of the separation line andthe third conductive layer
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`of the connector include a different material.
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`11.
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`The emissive display device of claim 10, wherein the second conductive
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`layer of the separationline is thinner than the second conductive layer of the connector.
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`12.
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`The emissive display device of claim 10, wherein
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`the pixel defining layer has an opening overlapping the connector in a plan
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`view, and
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`the first pixel electrode is connected to the connector through the openingof the
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`pixel defining layer.
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`13.
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`The emissive display device of claim 1, wherein each of the first emission
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`unit and the second emission unit includes:
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`a hole transportlayer;
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`an electron transport layer disposed on the hole transport layer;
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`a first emission layer overlapping the first pixel electrode in a plan view, the
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`first emission layer disposed between the hole transport layer and the electron
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`transport layer; and
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`a second emission layer overlapping the secondpixel electrode in a plan view,
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`the second emission layer disposed between the hole transport layer and the electron
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`transport layer.
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`14.
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`The emissive display device of claim 1, further comprising:
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`a commonelectrode disposed on the emission member,
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`wherein the commonelectrode is separated by the separationline.
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`15.
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`The emissive display device of claim 14, wherein
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`the separation line includes:
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`a first conductive layer;
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`a second conductive layer; and
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`a third conductive layer,
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`the first conductive layer, the second conductive layer, and the third conductive
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`layer are sequentially stacked, and
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`the common electrode electrically contacts a side surface of the second
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`conductive layer.
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`16.
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`The emissive display device of claim 14, wherein the commonelectrode
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`has a portion disposed on the separationline.
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`17.
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`Anemissive display device comprising:
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`a transistor disposed on a substrate;
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`a first insulating layer disposed on the transistor;
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`a bypassline disposed onthefirst insulating layer;
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`a second insulating layer disposed on the first insulating layer, the second
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`insulating layer including a first opening overlapping the bypassline in a plan view;
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`a first pixel electrode and a secondpixel electrode disposed at opposite sides of
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`the bypassline, the first pixel electrode and the second pixel electrode being disposed
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`on the secondinsulating layer;
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`a pixel defining layer disposed on the second insulating layer, the pixel defining
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`layer including a second opening overlapping the bypassline in a plan view;
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`an emission member disposed on the first pixel electrode, the second pixel
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`electrode, the pixel defining layer, and the bypass line; and
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`a commonelectrode disposed on the emission member, wherein
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`the emission member extendsoverthefirst pixel electrode and the second pixel
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`electrode, and
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`a surface of the emission membercontacts a surface of the bypassline.
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`18.
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`The emissive display device of claim 17, wherein a voltage applied to the
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`commonelectrode is substantially equal to a voltage applied to the bypassline.
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`19.
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`The emissive display device of claim 17, wherein
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`the bypassline includes:
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`a first conductive layer;
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`a second conductive layer; and
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`a third conductive layer,
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`the first conductive layer, the second conductive layer, and the third conductive
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`layer are sequentially stacked, and
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`the third conductive layer includes a transparent conductive oxidelayer.
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`20.
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`The emissive display device of claim 19, wherein
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`the emission membercontacts the third conductive layer, and
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`the third conductive layer, the first pixel electrode, and the second pixel
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`electrode include a same material, and are formed in a same process.
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