Double-sided organic photodetector on flexible substrate

The invention claimed is: 1. Detection module for the detection of ionizing radiation emitted by a radiation source comprising: a scintillator element for emitting scintillation photons in response to incident ionizing radiation; a first photosensitive element optically coupled to the scintillator element for capturing scintillation photons; and a flexible substrate for supporting the first photosensitive element; wherein the flexible substrate is folded around the scintillator element to cover at least two surfaces of the scintillator element. 2. Detection module as claimed in claim 1 , further comprising: a second photosensitive element for capturing scintillation photons; wherein the flexible substrate is substantially planar; and the first photosensitive element is located on a first surface of the substantially planar flexible substrate and the second photosensitive element is located on a second surface of the substantially planar flexible substrate opposite the first surface. 3. Detection module as claimed in claim 2 , wherein the flexible substrate includes a first support layer for supporting the first photosensitive element and a second support layer for supporting the second photosensitive element; and the first and the second support layers are attached to one another by means of glue. 4. Detection module as claimed in claim 2 , further comprising a second scintillator element, wherein the flexible substrate is arranged in between the first and the second scintillator element; and the first photosensitive element is optically coupled to the first scintillator element and the second photosensitive element is optically coupled to the second scintillator element. 5. Detection module as claimed in claim 2 , further comprising a second, a third and a fourth scintillator element, wherein the first and the third scintillator elements are arranged in a first stack and the second and the fourth scintillator element are arranged in a second stack, one scintillator element in a stack being located in between the radiation source and the other scintillator element in the stack; and the flexible substrate is arranged in between the first and the second stack parallel to side surfaces of the first and the second stack. 6. Detection module as claimed in claim 5 , further comprising a third and a fourth photosensitive element; wherein each of the first, second, third and fourth photosensitive elements is optically coupled to the corresponding first, second, third or fourth scintillator element; the third scintillator element is located on the first surface of the substantially planar flexible substrate; and the fourth photosensitive element is located on the second surface of the substantially planar flexible substrate. 7. Detection module as claimed in claim 1 , wherein the first and/or the second photosensitive element is substantially made of an organic material. 8. Detection module as claimed in claim 1 , wherein the flexible substrate is substantially made of an organic material. 9. Detection module as claimed in claim 1 , wherein the flexible substrate includes an intransparent layer or is substantially made of an intransparent material for preventing scintillation photons from passing through the flexible substrate. 10. Detection module as claimed in claim 1 , wherein the first and/or the second photosensitive element is printed on the flexible substrate. 11. Detection module as claimed in claim 1 , wherein the scintillator element is substantially cuboid-shaped with a first surface facing the radiation source; and the flexible substrate is arranged parallel to a second surface of the scintillator element, said second surface being arranged orthogonal to said first surface. 12. Detection module as claimed in claim 1 , further comprising: a readout electronics for providing information on the spatial distribution of the incident ionizing radiation; wherein the flexible substrate includes a connection circuitry for connecting photosensitive elements to the readout electronics. 13. Imaging device comprising: a subject support for supporting a subject in an examination area; a radiation source for emitting ionizing radiation arranged on a first side of the examination area or within the subject in the examination area; a detection module as claimed in claim 1 arranged on a second side of the examination area for the detection of ionizing radiation emitted by the radiation source; and an imaging unit for providing images based on the spatial distribution of the detected ionizing radiation. 14. Detection module for the detection of radiation comprising: a first and a second photosensitive element for capturing photons; a flexible substrate for supporting the first photosensitive element on a first surface and the second photosensitive element on a second surface; wherein the flexible substrate, the first photosensitive element and the second photosensitive element are substantially made of an organic material, wherein the flexible substrate is folded around a scintillator element to cover at least two surfaces of the scintillator element.