Patent Number: 
Section: claims

1. An anti-scatter device for suppressing scattered radiation, comprising:a plurality of x-ray absorbing layers; anda plurality of spacer layers, each spacer layer of the plurality of spacer layers being arranged between any two of the plurality of x-ray absorbing layers to hold the plurality of x-ray absorbing layers in a pre-defined orientation; at least one spacer layer of the plurality of spacer layers further comprising:a plurality of voids, wherein each void of the plurality of voids has an open end on a surface of the at least one spacer layer to reduce absorption of x-rays incident on at least a portion of the at least one spacer layer, and wherein the at least one spacer layer includes a plurality of slices arranged to leave spaces in between each of the plurality of slices to form the plurality of voids. 2. The anti-scatter device as claimed in claim 1, wherein the plurality of voids is formed via a mechanical means, a chemical means, an optical means or combinations thereof. 3. The anti-scatter device as claimed in claim 1, wherein the at least one spacer layer comprises at least a fiber material. 4. The anti-scatter device as claimed in claim 1, wherein at least one of the plurality of x-ray absorbing layers is joined to at least one of the plurality of spacer layers via a bonding material. 5. The anti-scatter device of claim 1, wherein the surface having the plurality of voids faces one of the plurality of x-ray absorbing layers. 6. The anti-scatter device of claim 1, wherein the surface having the plurality of voids is attached to one of the plurality of x-ray absorbing layers via a bonding material. 7. The anti-scatter device of claim 1, wherein the plurality of voids is along an axis parallel to a longitudinal axis of the anti-scatter device. 8. The anti-scatter device of claim 1, wherein the open end is not covered by material of the at least one spacer layer. 9. The anti-scatter device of claim 1, wherein the plurality of voids includes voids of different shapes and sizes. 10. A method for manufacturing an anti-scatter device for suppressing scattered radiation, the method comprising the acts of:applying a first bonding material on a first surface of a layer of a spacer material;attaching at least a layer of x-ray absorbing material onto a second surface of the layer of the spacer material via a second bonding material to form a composite foil, the second surface being different from the first surface;forming a plurality of voids, wherein each void of the plurality of voids has an open end on a surface of at least a portion of the spacer material;forming a plurality of composite strips from the composite foil;stacking each composite strip from the plurality of composite strips over another composite strip from the plurality of composite strips;applying heat on the stacked composite strips to activate the first bonding material and to bond the plurality of composite strips in a pre-defined orientation, wherein the act of forming the plurality of voids includes forming a plurality of slices of the spacer material, and arranging the plurality of slices to leave spaces in between each of the plurality of slices to form the plurality of voids. 11. The method for manufacturing of the anti-scatter device as claimed in claim 10, wherein the act of forming the plurality of voids is performed prior to the act of applying the first bonding material. 12. The method for manufacturing of the anti-scatter device as claimed in claim 10, wherein the act of forming the plurality of voids is performed prior to the act of attaching to form the composite foil but after the act of applying the first bonding material. 13. The method for manufacturing of the anti-scatter device as claimed in claim 10, wherein the act of forming the plurality of voids is performed via at least one of a mechanical means, a chemical means and an optical means. 14. The method of claim 10, wherein the surface having the plurality of voids is attached to the layer of x-ray absorbing material via the first bonding material. 15. The method of claim 10, wherein the plurality of voids is formed along an axis parallel to a longitudinal axis of the anti-scatter device. 16. The method of claim 10, wherein the act of forming the voids includes at least one of drilling, punching, etching or locally heating the surface to form the plurality of voids. 17. The method of claim 10, wherein the open end is not covered by the spacer material. 18. Use of an anti-scatter device for suppressing scattered radiation in an x-ray imaging apparatus, the use comprising:providing the anti-scatter device for attachment on a detecting surface of the x-ray imaging apparatus, the detecting surface arranged to receive at least a portion of x-rays emitted by the x-ray imaging apparatus and via the anti-scatter device, the anti-scatter device further comprising:a plurality of x-ray absorbing layers arranged in a pre-defined orientation;a plurality of spacer layers, each spacer layer of the plurality of spacer layers being arranged between any two of the plurality of x-ray absorbing layers and arranged to hold the plurality of x-ray absorbing layer in the pre-defined orientation; wherein at least one spacer layer of the plurality of spacer layers comprises:a plurality of voids, wherein each void of the plurality of voids has an open end on a surface of the at least one spacer layer, the plurality of voids being arranged to reduce absorption of x-rays incident on at least a portion of the at least one spacer layer, and wherein the at least one spacer layer includes a plurality of slices arranged to leave spaces in between each of the plurality of slices to form the plurality of voids.