US 12,449,706 B2
Method of production of an electro-optic device comprising integrated conductive edge seal
Matthew Joseph Kayal, Franklin, MA (US)
Assigned to E Ink Corporation, Billerica, MA (US)
Filed by E INK CORPORATION, Billerica, MA (US)
Filed on Feb. 27, 2024, as Appl. No. 18/588,875.
Application 18/588,875 is a division of application No. 17/363,096, filed on Jun. 30, 2021, granted, now 12,105,396.
Claims priority of provisional application 63/054,865, filed on Jul. 22, 2020.
Prior Publication US 2024/0201555 A1, Jun. 20, 2024
Int. Cl. G02F 1/167 (2019.01); G02F 1/16757 (2019.01); G02F 1/1676 (2019.01); G02F 1/1679 (2019.01); G02F 1/1675 (2019.01)
CPC G02F 1/167 (2013.01) [G02F 1/16757 (2019.01); G02F 1/1676 (2019.01); G02F 1/1679 (2019.01); G02F 2001/1678 (2013.01); G02F 2202/022 (2013.01)] 16 Claims
OG exemplary drawing
 
1. A process for producing an electro-optic device, the process comprising the steps:
providing a sub-assembly comprising (a) an electrophoretic material layer comprising an electrophoretic medium and having an upper surface, a lower surface, and a peripheral surface, wherein the upper surface of the electrophoretic material layer is defined by a perimeter having a length and a width, (b) a first adhesive layer having an upper surface, a lower surface, and a peripheral surface, wherein the upper surface of the first adhesive layer has a length and width, wherein the upper surface of the first adhesive layer is in contact with the lower surface of the electrophoretic material layer, (c) a first release sheet disposed on the lower surface of the first adhesive layer, (d) a second adhesive layer having an upper surface, a lower surface, and a peripheral surface, wherein the upper surface of the second adhesive surface has a length and a width, wherein the lower surface of the second adhesive layer is in contact with the upper surface of the electrophoretic material layer, (e) a second release sheet disposed on the upper surface of the second adhesive layer;
removing the first release sheet and contacting the exposed lower surface of the first adhesive layer with a backplane, wherein the backplane comprises a second electrode layer, wherein the backplane has an upper surface, a lower surface, and a peripheral surface, wherein the upper surface of the backplane has a length and a width, and wherein the upper surface of the backplane is in contact with the lower surface of the first adhesive layer, wherein the second electrode layer comprises a second electrode contact location, wherein at least part of the second electrode contact location is outside the volume defined by the vertical extension of the perimeter of the upper surface of the electrophoretic material layer, and wherein the backplane has length and width that are larger than the length and width of the perimeter of the electrophoretic material layer and the length and width of the first adhesive layer, and wherein the backplane extends outwardly beyond the edges of the perimeter of the upper surface of the electrophoretic material layer and the edges of the first adhesive layer;
removing the second release sheet and contacting the exposed upper surface of the second adhesive layer with a first light-transmissive electrode layer, wherein the first light-transmissive electrode comprises a first electrode contact location, wherein at least part of the first electrode contact location is outside the volume defined by the vertical extension of the perimeter of the upper surface of the electrophoretic material layer, wherein the first light-transmissive electrode layer has an upper surface, a lower surface, and a peripheral surface, wherein the upper surface of the first light-transmissive electrode has a length and a width that are larger than the length and width of the perimeter of the upper surface of the electrophoretic material layer, the length and width of the first adhesive layer and the length and width of the second adhesive layer, wherein the lower surface of the first light-transmissive layer is in contact with the upper surface of the second adhesive layer, and wherein the first light-transmissive electrode layer extends outwardly beyond the edges of the perimeter of the upper surface of the electrophoretic material layer and the edges of the first and second adhesive layers, and wherein a groove is formed that is defined by the outwardly extended first light-transmissive electrode layer, the peripheral surface of the first adhesive layer, the peripheral surface of the electrophoretic material layer, the peripheral surface of the second adhesive layer and the outwardly extended backplane;
disposing an edge seal composition inside the groove;
curing the edge seal composition to form a conductive edge seal, wherein the conductive edge seal contacts the first light-transmissive electrode layer at the first electrode contact location and the conductive edge seal contacts the second electrode layer at the second electrode contact location.