Battery element, a battery and a method for forming a battery

What is claimed is: 1. A battery element comprising: a substrate with a plurality of trenches extending into the substrate, wherein at least a part of each trench of the plurality of trenches is filled with a solid state battery structure; a front side battery element electrode arranged at a front side of the substrate and electrically connected within the plurality of trenches to a first electrode layer of the solid state battery structures; and a backside battery element electrode arranged at a backside of the substrate and electrically connected to a second electrode layer of the solid state battery structures within the plurality of trenches, wherein the front side battery element electrode is separated from the backside battery element electrode by at least the solid state battery structures, wherein the trenches of the plurality of trenches extend from the front side of the substrate to the backside of the substrate, and wherein the solid state battery structures extend from the front side of the substrate to the backside of the substrate within the trenches. 2. The battery element of claim 1 , wherein the front side battery element electrode extends along at least a half of the front side of the substrate. 3. The battery element of claim 1 , wherein the backside battery element electrode extends along at least a half of the backside of the substrate. 4. The battery element of claim 1 , wherein the front side battery element electrode and the backside battery element electrode comprise copper. 5. The battery element of claim 1 , wherein the solid state battery structures within the trenches comprise a solid state electrolyte layer between the first electrode layer and the second electrode layer. 6. The battery element of claim 5 , wherein the solid state electrolyte layer comprises lithium phosphorus oxynitride. 7. The battery element of claim 4 , wherein the first electrode layer comprises an anode layer comprising carbon or silicon. 8. The battery element of claim 4 , wherein the second electrode layer of the solid state battery structures is located between the first electrode layer of the solid state battery structures and the backside battery element electrode at the backside of the substrate. 9. The battery element of claim 1 , wherein the substrate comprises a thickness of more than 500 μm. 10. The battery element of claim 1 , wherein trenches of the plurality of trenches comprise an aspect ratio larger than 10. 11. The battery element of claim 1 , wherein trenches of the plurality of trenches comprise a maximal width of less than 300 μm. 12. The battery element of claim 1 , wherein a distance between adjacent trenches of the plurality of trenches is between 2 μm and 300 nm. 13. The battery element of claim 1 , wherein at least a portion of the solid state battery structure contacts walls within each trench of the plurality of trenches. 14. The battery element of claim 1 , wherein the substrate is a wafer. 15. The battery element of claim 1 , wherein the front side battery element electrode is electrically connected within the plurality of trenches in a continuous manner. 16. A battery comprising a plurality of battery elements arranged in a stacked manner, wherein each battery element comprises: a substrate with a plurality of trenches extending into the substrate, wherein at least a part of each trench of the plurality of trenches is filled with a solid state battery structure; a front side battery element electrode arranged at a front side of the substrate and electrically connected within the plurality of trenches to a first electrode layer of the solid state battery structures; a backside battery element electrode arranged at a backside of the substrate and electrically connected to a second electrode layer of the solid state battery structures within the plurality of trenches; and an electrolyte between the first and second electrode layers for ion conductivity between the first and second electrode layers, wherein the front side battery element electrode is separated from the backside battery element electrode by at least the solid state battery structures, wherein the trenches of the plurality of trenches extend from the front side of the substrate to the backside of the substrate, and wherein the solid state battery structures extend from the front side of the substrate to the backside of the substrate within the trenches. 17. A method for forming a battery, the method comprising: etching trenches into a substrate; forming a solid state battery structure within the trenches; forming a front side battery element electrode arranged at a front side of the substrate and electrically connected within the trenches to a first electrode layer of the solid state battery structure; thinning the substrate from a backside of the substrate after forming the solid state battery structure within the trenches until the solid state battery structure is uncovered at the backside of the substrate; forming a backside battery element electrode arranged at a backside of the substrate and electrically connected to a second electrode layer of the solid state battery structure within the trenches; and providing an electrolyte between the first and second electrode layers for ion conductivity between the first and second electrode layers, wherein the front side battery element electrode is separated from the backside battery element electrode by at least the solid state battery structures. 18. The method of claim 17 , further comprising stacking a plurality of battery elements so that electrodes of neighboring battery elements are in contact with each other.