Abstract: A method for manufacturing a semiconductor device, the method including irradiating a laminated body for temporary fixing with light and thereby separating the semiconductor member from a resin layer for temporary fixing. The laminated body for temporary fixing is formed by a method including: laminating a film material for temporary fixing on a light-absorbing layer in a direction in which a first principal surface is in contact with the light-absorbing layer; and peeling off a second release film from the film material for temporary fixing to expose a second principal surface. When the maximum values of logarithmic decrements of the first principal surface and the second principal surface of the resin layer for temporary fixing in rigid pendulum measurement are designated as ?max1 and ?max2, respectively, ?max2 is smaller than ?max1.

Abstract: The present invention relates to a method for manufacturing an electronic component having an electromagnetic shield, comprising: a bonding step of bonding a temporary protective material on a workpiece with unevenness on the surface thereof; a photocuring step of curing the temporary protective material by light irradiation; a icing step of singulating the workpiece and the temporary protective material; a shielding step of forming a metal film on the portion of the singulated workpiece, the portion having no temporary protective material bonded thereon; and a peeling step of peeling the temporary protective material from the workpiece having the metal film formed, wherein the temporary protective material is formed from a resin composition for temporary protection with an elastic modulus at 25° C. of 3 MPa or less and an elastic modulus at 25° C. of 40 MPa or more after light irradiation with an exposure dose of 500 mJ/cm2 or more.

Abstract: The present invention relates to a method for manufacturing an electronic component having an electromagnetic shield, comprising: a bonding step of bonding a temporary protective material on a workpiece with unevenness on the surface thereof; a photocuring step of curing the temporary protective material by light irradiation; a icing step of singulating the workpiece and the temporary protective material; a shielding step of forming a metal film on the portion of the singulated workpiece, the portion having no temporary protective material bonded thereon; and a peeling step of peeling the temporary protective material from the workpiece having the metal film formed, wherein the temporary protective material is formed from a resin composition for temporary protection with an elastic modulus at 25° C. of 3 MPa or less and an elastic modulus at 25° C. of 40 MPa or more after light irradiation with an exposure dose of 500 mJ/cm2 or more.

Abstract: A method for manufacturing an adhesive sheet according to the present invention is a method for manufacturing an adhesive sheet including a long peeling base material 1 and an adhesive layer 2 provided on the peeling base material 1 in the form of an island, the method including a peeling step of, after laminating a long adhesive layer 2 on the peeling base material 1, peeling off an unnecessary portion 6 of the adhesive layer 2 so that a predetermined portion of the adhesive layer is left on the peeling base material 1 in the form of an island, wherein, in the peeling step, the width W of a narrow portion 8, which is the narrowest in width in a short direction of the unnecessary portion 6 of the adhesive layer 2, is adjusted so that the breaking strength in the narrow portion 8 is 200 g or more.

Abstract: A dicing/die bonding integral film of the present invention includes a base film, a pressure-sensitive adhesive layer which is formed on the base film and to which a wafer ring for blade dicing is bonded, and a bonding layer formed on the adhesive layer and having a central portion to which a semiconductor wafer to be diced is bonded, wherein a planar shape of the bonding layer is circular, an area of the bonding layer is greater than an area of the semiconductor wafer and smaller than an area of each of the base film and the adhesive layer, and a diameter of the bonding layer is greater than a diameter of the semiconductor wafer and less than an inner diameter of the wafer ring, and a difference in diameter between the bonding layer and the semiconductor wafer is greater than 20 mm and less than 35 mm.

Abstract: An adhesive sheet comprising a release substrate 10, a substrate film 14, and a first tacky-adhesive layer 12 placed between the release substrate 10 and the substrate film 14, wherein an annular incision D is formed on the release substrate 10 from the surface of the first tacky-adhesive layer 12 side, the first tacky-adhesive layer 12 is laminated so as to cover the whole inner surface of the incision D in the release substrate 10, and the incision D has a depth d of less than the thickness of the release substrate 10 and 25 ?m or less.

Abstract: An adhesive sheet comprising a release substrate 10, a substrate film 14, and a first tacky-adhesive layer 12 placed between the release substrate 10 and the substrate film 14, wherein an annular incision D is formed on the release substrate 10 from the surface of the first tacky-adhesive layer 12 side, the first tacky-adhesive layer 12 is laminated so as to cover the whole inner surface of the incision D in the release substrate 10, and the incision D has a depth d of less than the thickness of the release substrate 10 and 25 ?m or less.

Abstract: An adhesive sheet comprising a release substrate 10, a substrate film 14, and a first tacky-adhesive layer 12 placed between the release substrate 10 and the substrate film 14, wherein an annular incision D is formed on the release substrate 10 from the surface of the first tacky-adhesive layer 12 side, the first tacky-adhesive layer 12 is laminated so as to cover the whole inner surface of the incision D in the release substrate 10, and the incision D has a depth d of less than the thickness of the release substrate 10 and 25 ?m or less.

Abstract: An adhesive sheet comprising a release substrate 10, a substrate film 14, and a first tacky-adhesive layer 12 placed between the release substrate 10 and the substrate film 14, wherein an annular incision D is formed on the release substrate 10 from the surface of the first tacky-adhesive layer 12 side, the first tacky-adhesive layer 12 is laminated so as to cover the whole inner surface of the incision D in the release substrate 10, and the incision D has a depth d of less than the thickness of the release substrate 10 and 25 ?m or less.

Abstract: A dicing/die bonding integral film of the present invention includes a base film, a pressure-sensitive adhesive layer which is formed on the base film and to which a wafer ring for blade dicing is bonded, and a bonding layer formed on the adhesive layer and having a central portion to which a semiconductor wafer to be diced is bonded, wherein a planar shape of the bonding layer is circular, an area of the bonding layer is greater than an area of the semiconductor wafer and smaller than an area of each of the base film and the adhesive layer, and a diameter of the bonding layer is greater than a diameter of the semiconductor wafer and less than an inner diameter of the wafer ring, and a difference in diameter between the bonding layer and the semiconductor wafer is greater than 20 mm and less than 35 mm,

Abstract: A method for manufacturing an adhesive sheet according to the present invention is a method for manufacturing an adhesive sheet including a long peeling base material 1 and an adhesive layer 2 provided on the peeling base material 1 in the form of an island, the method including a peeling step of, after laminating a long adhesive layer 2 on the peeling base material 1, peeling off an unnecessary portion 6 of the adhesive layer 2 so that a predetermined portion of the adhesive layer is left on the peeling base material 1 in the form of an island, wherein, in the peeling step, the width W of a narrow portion 8, which is the narrowest in width in a short direction of the unnecessary portion 6 of the adhesive layer 2, is adjusted so that the breaking strength in the narrow portion 8 is 200 g or more.

Abstract: An adhesive sheet comprising a release substrate 10, a substrate film 14, and a first tacky-adhesive layer 12 placed between the release substrate 10 and the substrate film 14, wherein an annular incision D is formed on the release substrate 10 from the surface of the first tacky-adhesive layer 12 side, the first tacky-adhesive layer 12 is laminated so as to cover the whole inner surface of the incision D in the release substrate 10, and the incision D has a depth d of less than the thickness of the release substrate 10 and 25 ?m or less.

Abstract: An adhesive sheet comprising a release substrate 10, a substrate film 14, and a first tacky-adhesive layer 12 placed between the release substrate 10 and the substrate film 14, wherein an annular incision D is formed on the release substrate 10 from the surface of the first tacky-adhesive layer 12 side, the first tacky-adhesive layer 12 is laminated so as to cover the whole inner surface of the incision D in the release substrate 10, and the incision D has a depth d of less than the thickness of the release substrate 10 and 25 ?m or less.

Abstract: An adhesive sheet comprising a release substrate 10, a substrate film 14, and a first tacky-adhesive layer 12 placed between the release substrate 10 and the substrate film 14, wherein an annular incision D is formed on the release substrate 10 from the surface of the first tacky-adhesive layer 12 side, the first tacky-adhesive layer 12 is laminated so as to cover the whole inner surface of the incision D in the release substrate 10, and the incision D has a depth d of less than the thickness of the release substrate 10 and 25 ?m or less.

Abstract: An adhesive sheet comprising a release substrate 10, a substrate film 14, and a first tacky-adhesive layer 12 placed between the release substrate 10 and the substrate film 14, wherein an annular incision D is formed on the release substrate 10 from the surface of the first tacky-adhesive layer 12 side, the first tacky-adhesive layer 12 is laminated so as to cover the whole inner surface of the incision D in the release substrate 10, and the incision D has a depth d of less than the thickness of the release substrate 10 and 25 ?m or less.