Method of producing electrode

What is claimed is: 1 . A method of producing an electrode for a lithium-ion battery, the method comprising: (a) preparing an active material powder, the active material powder including a foreign particle and an active material particle; (b) preparing a first electrode material including the active material powder; (c) performing dry classification treatment on the first electrode material to decrease the foreign particle included in the first electrode material; and (d) forming an active material layer including the first electrode material after the dry classification treatment, wherein the first electrode material is in powder form, and the foreign particle includes a metal foreign object and is a coarse particle. 2 . The method of producing the electrode for the lithium-ion battery according to claim 1 , wherein the (d) includes: (d2) preparing a powdery and granular composition by mixing the first electrode material after the dry classification treatment with a second electrode material; and (d3) coating a surface of a substrate with the powdery and granular composition, and the second electrode material includes at least one selected from the group consisting of a conductive material, a solid electrolyte, a binding material, and a solvent. 3 . The method of producing the electrode for the lithium-ion battery according to claim 2 , wherein the powdery and granular composition has a solid fraction from 70 to 100% by mass. 4 . The method of producing the electrode for the lithium-ion battery according to claim 2 , wherein the (d) further includes, before the (d2), (d1) performing magnetic separation treatment on at least part of the second electrode material to decrease a magnetic metal particle included in the second electrode material. 5 . The method of producing the electrode for the lithium-ion battery according to claim 1 , wherein the active material particle is magnetic. 6 . The method of producing the electrode for the lithium-ion battery according to claim 1 , wherein the coarse particle has a shorter diameter and a longer diameter, the shorter diameter is twice a D99 of the active material powder, or greater, and the D99 refers to a particle size in volume-based particle size distribution at which cumulative frequency of particle sizes accumulated from a small size side reaches 99% of all particles.