Durable optical interference pigment with a bimetal core

We claim: 1. A plurality of asymmetric color-shifting flakes, each comprising: an asymmetric magnetic structure with a first side and a second side, wherein the first side has a magnetic layer, a first spacer layer on the magnetic layer, and a first absorber layer on the first spacer layer; wherein the second side has a non-magnetic reflector layer, a second spacer layer on the non-magnetic reflector layer, and a second absorber layer on the second spacer layer; wherein the magnetic layer is visible on the first side of the asymmetric magnetic structure and the non-magnetic reflector layer is visible on the second side of the asymmetric magnetic structure; wherein the first side of the asymmetric magnetic structure provides a first color-shifting effect on the first side of the asymmetric magnetic structure; and wherein the second side of the asymmetric magnetic structure provides a second color-shifting effect on the second side of the asymmetric magnetic structure. 2. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein the magnetic layer is more stable when exposed to an alkaline solution than the reflector layer. 3. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein the reflector layer comprises aluminum. 4. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein the first spacer layer has an optical thickness same as an optical thickness of the second spacer layer. 5. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein the first absorber layer is formed of a material same as a material of the second absorber layer, and the physical thickness of the first absorber layer is equal to the physical thickness of the second absorber layer. 6. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein at least one of the magnetic layer and the reflector layer is stable when exposed to aqueous sulfuric acid (H 2 SO 4 ). 7. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein at least one of the magnetic layer and the reflector layer is stable when exposed to aqueous sodium hydroxide (NaOH). 8. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein at least one of the magnetic layer and the reflector layer is stable when exposed to aqueous sodium hypochlorite. 9. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein each flake consists of six layers including the reflector layer, the magnetic layer, the first and second spacer layers, and the first and second absorber layers. 10. A coating composition comprising a binder and the plurality of asymmetric color-shifting flakes defined in claim 1 , dispersed therein. 11. The coating composition as defined in claim 10 , applied to a surface, wherein the plurality of asymmetric color-shifting flakes are magnetically aligned. 12. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein the first spacer layer and the second spacer layer are chosen so that the first color shifting effect and the second color shifting effect appear the same to a naked human eye. 13. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein the first absorber layer has a thickness ranging from about 3 nm to about 50 nm. 14. The plurality of asymmetric color-shifting flakes as defined in claim 1 , wherein the second absorber layer has a thickness ranging from about 3 nm to about 50 nm. 15. The plurality of asymmetric color-shifting flakes as defined in claim 14 , wherein the first absorber layer and the second absorber layer are chosen so that the first color shifting effect and the second color shifting effect appear the same to a naked human eye. 16. A method for improving an optical performance comprising: providing a coating as defined in claim 10 ; and exposing the coating to a chemical; wherein the coating exhibits an improved optical performance as compared to a coating comprising a plurality of symmetric color-shifting flakes. 17. The method of claim 16 , wherein the coating has a chromaticity value (C*) in the range of 40 to 60 units. 18. A plurality of asymmetric color-shifting flakes, each comprising: an asymmetric structure with a first side and a second side, wherein the first side has a first reflector layer, a first spacer layer on the first reflector layer, and a first absorber layer on the first spacer layer; wherein the second side has a second reflector layer, a second spacer layer on the second reflector layer, and a second absorber layer on the second spacer layer; wherein the first reflector layer is visible on the first side of the asymmetric structure and the second reflector layer is visible on the second side of the asymmetric structure, wherein the first reflector layer is made of a material different from a material of the second reflector layer; wherein the first side of the asymmetric structure provides a first color-shifting effect on the first side of the asymmetric structure; and, wherein the second side of the asymmetric structure provides a second color-shifting effect on the second side of the asymmetric structure. 19. The plurality of asymmetric color-shifting flakes as defined in claim 18 , wherein the first spacer layer has an optical thickness same as an optical thickness of the second spacer layer, the first absorber layer is formed of a material same as a material of the second absorber layer, and the physical thickness of the first absorber layer is equal to the physical thickness of the second absorber layer.