A flexible display panel, a manufacturing method for the flexible display panel, and a display device are provided. The flexible display panel includes a packaging layer, a driving circuit layer and an insulation layer. The insulation layer serves as a base of the flexible display panel and is located at a side of the driving circuit layer distal to the packaging layer, each of a CTE and a light transmittance of the insulation layer is within a respective predetermined range, the CTE of the insulation layer is smaller than a first threshold, the light transmittance of the insulation layer is greater than a second threshold, the first threshold is within a range of 5 to 15, and the second threshold is within a range of 90% to 99%.

An object is to provide a highly reliable light emitting device which is thin and is not damaged by external local pressure. Further, another object is to manufacture a light emitting device with a high yield by preventing defects of a shape and characteristics due to external stress in a manufacture process. A light emitting element is sealed between a first structure body in which a fibrous body is impregnated with an organic resin and a second structure body in which a fibrous body is impregnated with an organic resin, whereby a highly reliable light emitting device which is thin and has intensity can be provided. Further, a light emitting device can be manufactured with a high yield by preventing defects of a shape and characteristics in a manufacture process.

An object is to provide a highly reliable light emitting device which is thin and is not damaged by external local pressure. Further, another object is to manufacture a light emitting device with a high yield by preventing defects of a shape and characteristics due to external stress in a manufacture process. A light emitting element is sealed between a first structure body in which a fibrous body is impregnated with an organic resin and a second structure body in which a fibrous body is impregnated with an organic resin, whereby a highly reliable light emitting device which is thin and has intensity can be provided. Further, a light emitting device can be manufactured with a high yield by preventing defects of a shape and characteristics in a manufacture process.

A method includes a supporting step supporting first planar surfaces of two substrates 20A and 30A having flexibility with supporting boards 50 and 60 each having flexibility and a larger thickness than the two substrates 20A and 30A, a thin film pattern formation step, after the supporting step, forming a thin film pattern on second planar surfaces of the two substrates 20A and 30A, a bonding step, after the thin film pattern formation step, bonding the two substrates 20A and 30A at surfaces each having the thin film pattern thereon with the sealant therebetween to form a bonded substrate 70, a first curving step, after the bonding step, curving the bonded substrate 70 while curing the sealant, a detachment step, after the first curving step, detaching the supporting boards 50 and 60 from the bonded substrate 70, and a second curving step, after the detachment step, further curving the bonded substrate 70.

A polymeric dielectric may include a coordination complex of a modified elastic polymer and a metal cation. The modified elastic polymer may include an organic ligand moiety that coordinates the metal cation in a main chain of the elastic polymer. Provided are a method of manufacturing the same, and an electronic device and a thin film transistor including the same.

A method for manufacturing a display device is provided. The method includes a step of forming a first layer over a first substrate, a terminal electrode over the first layer, a display element over the first layer, and a peeling layer overlapping with the terminal electrode, a step of forming a second layer over a second substrate, a step of attaching the first substrate to the second substrate with a bonding layer therebetween, a step of separating the first substrate from the first layer, a step of attaching a third substrate to the first layer, a step of separating the second substrate from the second layer together with part of the bonding layer, and a step of attaching a fourth substrate to the second layer. At least one of the first layer and the second layer includes an organic film.

Provided are a display apparatus, which may be easily separated from a carrier substrate, and a method of manufacturing the same. The method of manufacturing a display apparatus includes: forming, on a carrier substrate, a first inorganic layer including silicon oxide; plasma-treating the first inorganic layer by using nitrous oxide gas; after the plasma-treating, forming a display substrate on the first inorganic layer; forming a display element layer above the display substrate; and separating the display substrate from the carrier substrate.

Provided are a display apparatus, which may be easily separated from a carrier substrate, and a method of manufacturing the same. The method of manufacturing a display apparatus includes: forming, on a carrier substrate, a first inorganic layer including silicon oxide; plasma-treating the first inorganic layer by using nitrous oxide gas; after the plasma-treating, forming a display substrate on the first inorganic layer; forming a display element layer above the display substrate; and separating the display substrate from the carrier substrate.

A flexible display device and a method for manufacturing the flexible display device are provided by embodiments of the present application, which solve problems that a module of a flexible active-matrix organic light emitting diode has a poor moisture and oxygen blocking effect on a side, and an edge is prone to fracture or be peeled off when bent. A flexible display device provided by an embodiment of the application includes a display substrate, and an encapsulating film layer disposed on a surface of the display substrate. An edge of the encapsulating film layer includes a concave-convex sawtooth structure.

In a flexible display panel and a preparation method thereof provided by the present application, the flexible display panel includes a flexible substrate including a display area and a non-display area connected to each other, a thickness of the flexible substrate in the non-display area is less than a thickness of the flexible substrate in the display area; a thin film transistor layer disposed on one side of the flexible substrate; and an organic light-emitting layer disposed on one side of the thin film transistor layer away from the flexible substrate.