Electrode structure and method of manufacturing the same, and secondary battery including the electrode structure

What is claimed is: 1. An electrode structure comprising: a base layer comprising a first active material; a plurality of active material plates provided on a first surface of the base layer and spaced apart from one another, the plurality of active material plates comprising a second active material; and a channel between active material plates of the plurality of active material plates, wherein the channel extends to a predetermined depth in the base layer, wherein an active material density of the base layer is less than an active material density of an active material plate of the plurality of active material plates. 2. The electrode structure of claim 1 , further comprising an electrode current collector layer on a second surface of the base layer, the second layer being opposite the first surface of the base layer. 3. The electrode structure of claim 2 , wherein the electrode current collector layer comprises a metal having a conductivity of about 10 3 Siemens per meter to about 10 7 Siemens per meter at 20° C. 4. The electrode structure of claim 1 , wherein the first active material and the second active material each independently comprise a lithium metal oxide or a lithium metal phosphate. 5. The electrode structure of claim 1 , wherein the first active material and the second active material are different in composition. 6. The electrode structure of claim 1 , wherein the first active material has the same composition as the second active material. 7. The electrode structure of claim 1 , wherein a volume fraction of the first active material is in a range from about 50 volume percent to about 90 volume percent, based on a total volume of the base layer. 8. The electrode structure of claim 1 , wherein a volume fraction of the second active material is in a range from about 80 volume percent to about 100 volume percent, based on a total volume of the plurality of active material plates. 9. The electrode structure of claim 1 , wherein the base layer has a height of about 5 micrometers to about 200 micrometers. 10. The electrode structure of claim 1 , wherein the base layer comprises a conductive metal having a conductivity of 10 3 to 10 7 Siemens per meter at 20° C. and the first active material. 11. The electrode structure of claim 10 , wherein the conductive metal comprises aluminum, copper, nickel, cobalt, chromium, tungsten, molybdenum, silver, gold, platinum, lead, or a combination thereof. 12. The electrode structure of claim 10 , wherein a volume fraction of the conductive metal is about 0.1 volume percent to about 30 volume percent, based on a total volume of the conductive metal having a conductivity of 10 3 to 10 7 Siemens per meter at 20° C. and the first active material. 13. The electrode structure of claim 1 , wherein an active material plate of the plurality of active material plates comprises a plurality of active material layers that are stacked from the base layer. 14. The electrode structure of claim 13 , wherein an active material density of an active material layer of the plurality of active material layers increases in a direction away from the base layer. 15. The electrode structure of claim 1 , wherein the plurality of active material plates define a width direction, a length direction, and a height direction, and the plurality of active material plates are spaced apart from one another in the width direction. 16. The electrode structure of claim 15 , wherein a distance between adjacent active material plates is greater than 0 micrometers and equal to or less than about 50 micrometers. 17. The electrode structure of claim 15 , wherein at least one of the plurality of active material plates has a length that is different from a length of another active material plate. 18. The electrode structure of claim 15 , wherein a width of an active material plate of the plurality of active material plates is equal to or greater than about 10 micrometers. 19. The electrode structure of claim 15 , wherein a height of an active material plate of the plurality of active material plates is greater than a width of an active material plate of the plurality of active material plates. 20. The electrode structure of claim 19 , wherein a height of an active material plate of the plurality of active material plates is in a range from about 20 micrometers to about 1,000 micrometers. 21. The electrode structure of claim 15 , wherein an angle between a direction perpendicular to a surface of an active material plate of the plurality of active material plates and an oriented direction of a crystal grain in the active material plate is about 1° to about 45°. 22. The electrode structure of claim 21 , wherein the oriented crystal direction of the crystal grain is a <100>, <010>, <110>, <101>, <012>, <104>, <113>, or <021> direction. 23. The electrode structure of claim 1 , wherein the plurality of active material plates define a width direction, a length direction, and a height direction, and the plurality of active material plates are spaced apart from one another in the length direction. 24. The electrode structure of claim 1 , wherein the base layer does not comprise a binder. 25. The electrode structure of claim 1 , wherein the active material plates do not comprise a binder. 26. A secondary battery comprising: a first electrode structure and a second electrode structure spaced apart from each other; and a separation film between the first electrode structure and the second electrode structure, wherein the first electrode structure comprises a base layer comprising a first active material; a plurality of active material plates provided on a first surface of the base layer and spaced apart from one another, the plurality of active material plates comprising a second active material; and a channel between active material plates of the plurality of active material plates, wherein the channel extends to a predetermined depth in the base layer, wherein an active material density of the base layer is less than an active material density of an active material plate of the plurality of active material plates. 27. The secondary battery of claim 26 , wherein the first electrode structure and the second electrode structure are respectively a cathode structure and an anode structure. 28. The secondary battery of claim 26 , wherein the first electrode structure further comprises an electrode current collector layer on a second surface of the base layer, the second layer being opposite the first surface of the base layer. 29. The secondary battery of claim 26 , further comprising an electrolyte disposed in the channel between active material plates of the plurality of active material plates. 30. The secondary battery of claim 26 , wherein the base layer comprises a conductive metal having a conductivity of about 10 3 Siemens per meter to about 10 7 Siemens per meter at 20° C. and the first active material. 31. The secondary battery of claim 26 , wherein an active material plate of the plurality of active material plates comprises a plurality of active material layers that are stacked from the base layer, and wherein an active material density of an active material layer of the plurality of active material layers increases in a direction away from the base layer. 32. A secon