Patent Number: 
Section: claims

1. A scintillator panel comprising:a glass substrate with a thickness of not more than 150 μm having radiotransparency;an organic resin layer formed by coating a one face side and a side face side of the glass substrate;a resin film layer stuck so as to cover an other face side of the glass substrate;a scintillator layer formed on the one face side of the glass substrate on which the organic resin layer and the resin film layer are formed; anda moisture-resistant protection layer comprising polyparaxylylene and formed so as to cover the scintillator layer along with the glass substrate on which the organic resin layer and the resin film layer are formed,wherein the organic resin layer, the resin film layer, and the protection layer are formed of materials different from each other. 2. The scintillator panel according to claim 1, wherein the organic resin layer is selected from silicone resin, urethane resin, epoxy resin, and fluorine resin and wherein the resin film is selected from PET, PEN, COP, and PI. 3. A radiation detector comprising:the scintillator panel as set forth in claim 1; anda light receiving element comprising a thin-film transistor (TFT) panel in which photodiodes and the TFT are arrayed on a glass substrate of the TFT panel, the light receiving element facing the one side of the glass substrate, wherein the scintillator layer is disposed between the light receiving element and the glass substrate on which the protection layer is formed. 4. A scintillator panel comprising:a glass substrate with a thickness of not more than 150 μm having radiotransparency and having a one face side, an other face side, and a side face side;an organic resin layer formed by coating the other face side and the side face side of the glass substrate;a resin film layer stuck so as to cover the one face side of the glass substrate;a scintillator layer formed on the one face side of the glass substrate on which the organic resin layer and the resin film layer are formed; anda moisture-resistant protection layer comprising polyparaxylylene and formed so as to cover the scintillator layer along with the glass substrate on which the organic resin layer and the resin film layer are formed,wherein the organic resin layer, the resin film layer, and the protection layer are formed of materials different from each other. 5. The scintillator panel according to claim 4, wherein the organic resin layer is selected from silicone resin, urethane resin, epoxy resin, and fluorine resin and wherein the resin film is selected from PET, PEN, COP, and PI. 6. A radiation detector comprising:the scintillator panel as set forth in claim 4; anda light receiving element comprising a thin-film transistor (TFT) panel in which photodiodes and the TFT are arrayed on a glass substrate of the TFT panel, the light receiving element facing the one side of the glass substrate, wherein the scintillator layer is disposed between the light receiving element and the glass substrate on which the protection layer is formed. 7. A method of producing a scintillator panel, comprising:forming an organic resin layer by coating a one face side and a side face side of a glass substrate with a thickness of not more than 150 μm;depositing a scintillator layer comprised of columnar crystals onto the organic resin layer formed on the one face side of the glass substrate; andforming a moisture-resistant protection layer comprising polyparaxylylene that covers the organic resin layer and the scintillator layer,wherein the organic resin layer, a resin film layer, and the protection layer are formed of materials different from each other. 8. The method of producing a scintillator panel according to claim 7, further comprising sticking an organic film layer onto an other face side and the side face side of the glass substrate.