Negative electrode for secondary battery and secondary battery including the negative electrode

What is claimed is: 1. A negative electrode for a secondary battery, the negative electrode comprising: a current collector; an interlayer directly on the current collector and consisting of a cation-substituted polycarboxylic acid; and a negative electrode active material layer directly on the interlayer, wherein the negative electrode active material layer comprises a negative electrode active material and a binder, wherein a polycarboxylic acid of the cation-substituted polycarboxylic acid is polyacrylic acid, polymethacrylic acid, polymaleic acid, poly(acrylate-co-maleic acid), poly(methylvinylether-alt-maleic acid), poly(butadiene-co-maleic acid), or a combination thereof, wherein a cation of the cation-substituted polycarboxylic acid is at least one selected from a lithium ion (Li + ), a sodium ion (Na + ), a potassium ion (K + ), and an ammonium ion (NH 4 + ), and the negative electrode active material is at least one selected from silicon, a silicon oxide, a silicon alloy, a mixture of a silicon-comprising material and graphite, and a composite of the silicon-comprising material and the graphite, wherein the binder has a same composition as the interlayer. 2. The negative electrode of claim 1 , wherein a weight average molecular weight of the cation-substituted polycarboxylic acid is from about 1,000 to about 1,000,000 Daltons. 3. The negative electrode of claim 1 , wherein a glass transition temperature of the cation-substituted polycarboxylic acid is about 50° C. or greater. 4. The negative electrode of claim 1 , wherein a melting point of the cation-substituted polycarboxylic acid is about 100° C. or higher. 5. The negative electrode of claim 1 , wherein a thickness of the interlayer is from about 100 nanometers to about 10 micrometers. 6. The negative electrode of claim 1 , wherein a thickness of the interlayer is from about 100 nanometers to about 2 micrometers. 7. The negative electrode of claim 1 , wherein the cation-substituted polycarboxylic acid is a lithium polyacrylate, a lithium polymethacrylate, a poly(acrylate-co-maleic acid) lithium salt, a poly(methylvinylether-alt-maleic acid) lithium salt, a poly(butadiene-co-maleic acid) lithium salt, or a combination thereof. 8. The negative electrode of claim 1 , wherein the binder consists of the cation-substituted polycarboxylic acid. 9. The negative electrode of claim 1 , wherein the interlayer does not include a conducting agent. 10. The negative electrode of claim 1 , wherein the binder consists of the cation-substituted polycarboxylic acid, and an amount of the cation-substituted polycarboxylic acid contained in the interlayer is greater than an amount of the cation-substituted polycarboxylic acid contained in the negative electrode active material layer. 11. The negative electrode of claim 1 , wherein a cation of the cation-substituted polycarboxylic acid comprises at least 50 mole percent of the cation with respect to a molar equivalent of an acid group of the polycarboxylic acid. 12. The negative electrode of claim 1 , wherein the cation-substituted polycarboxylic acid is lithium polyacrylate, and the negative electrode active material comprises at least one selected from silicon, a silicon oxide, a silicon alloy, a mixture of a silicon-comprising material and graphite, and a composite of the silicon-comprising material and the graphite. 13. The negative electrode of claim 1 , wherein an amount of the binder is about 1 part to about 20 parts by weight, based on 100 parts by weight of the negative electrode active material layer. 14. A secondary battery comprising the negative electrode of claim 1 . 15. The secondary battery of claim 14 , wherein the secondary battery is a lithium secondary battery. 16. A flexible battery comprising the negative electrode of claim 1 .