Optical laminate and wavelength conversion sheet

What is claimed is: 1. A wavelength conversion sheet comprising a phosphor layer including a curable resin and a phosphor, and a barrier film laminated on at least one surface of the phosphor layer, wherein the barrier film comprises, on an outermost surface facing the phosphor layer, a primer layer formed by curing a primer composition containing a silane coupling agent having a reactive functional group capable of reacting with the curable resin, other than an alkoxysilane group and a silanol group, and assuming that a thickness of the primer layer is D, a total content of the reactive functional group and the reactive functional group that has reacted with the curable resin per 1 m 2 ×D of the primer layer is 1.5×10 −6 mol or higher and 3.5×10 −3 mol or lower, wherein the curable resin comprises a thiol resin, and the reactive functional group comprises at least one selected from the group consisting of an epoxy group, a mercapto group, a vinyl group, and a methacrylic group. 2. The wavelength conversion sheet of claim 1 , wherein the total content of the reactive functional group and the reactive functional group that has reacted with the curable resin per unit volume of the primer layer is 1.5×10 −3 mol/cm 3 or higher and 7.0×10 −3 mol/cm 3 or lower. 3. A wavelength conversion sheet comprising a phosphor layer including a curable resin and a phosphor, and a barrier film laminated on at least one surface of the phosphor layer, wherein the barrier film comprises, on an outermost surface facing the phosphor layer, a primer layer formed by curing a primer composition containing a silane coupling agent having a reactive functional group capable of reacting with the curable resin, other than an alkoxysilane group and a silanol group, and assuming that a thickness of the primer layer is D, a total content of the reactive functional group and the reactive functional group that has reacted with the curable resin per 1 m 2 ×D of the primer layer is 1.5×10 −6 mol or higher and 3.5×10 −3 mol or lower, wherein the curable resin comprises an acrylic resin, and the reactive functional group comprises at least one selected from the group consisting of a vinyl group, an acrylic group, a methacrylic group, and a mercapto group. 4. The wavelength conversion sheet of claim 3 , wherein the total content of the reactive functional group and the reactive functional group that has reacted with the curable resin per unit volume of the primer layer is 1.5×10 −3 mol/cm 3 or higher and 7.0×10 −3 mol/cm 3 or lower. 5. A wavelength conversion sheet comprising a phosphor layer including a curable resin and a phosphor, and a barrier film laminated on at least one surface of the phosphor layer, wherein the barrier film comprises, on an outermost surface facing the phosphor layer, a primer layer formed by curing a primer composition containing a silane coupling agent having a reactive functional group capable of reacting with the curable resin, other than an alkoxysilane group and a silanol group, and assuming that a thickness of the primer layer is D, a total content of the reactive functional group and the reactive functional group that has reacted with the curable resin per 1 m 2 ×D of the primer layer is 1.5×10 −6 mol or higher and 3.5×10 −3 mol or lower, wherein the curable resin comprises an epoxy resin, and the reactive functional group comprises at least one selected from the group consisting of an epoxy group, an amino group, and a mercapto group. 6. The wavelength conversion sheet of claim 5 , wherein the total content of the reactive functional group and the reactive functional group that has reacted with the curable resin per unit volume of the primer layer is 1.5×10 −3 mol/cm 3 or higher and 7.0×10 −3 mol/cm 3 or lower.