Lamellar particles having different properties in different areas and methods of manufacture

We claim: 1. A lamellar particle, comprising: an inner core of a first material; and an external layer of a second material that is different from the first material; an unconverted portion of the lamellar particle, wherein the unconverted portion includes an unconverted inner core and any unconverted external layer; a converted portion of the lamellar particle disposed external to a surface of the unconverted portion, wherein the converted portion includes a chemical compound of the first material and the second material, wherein the converted portion includes any converted inner core and a converted external layer, and wherein the converted portion has a property different from a property of the unconverted portion. 2. The lamellar particle of claim 1 , wherein the unconverted portion provides a light reflectance in a spectral region ranging from 0.4 to 20 microns and the converted portion absorbs light in a selected region of the spectral range. 3. The lamellar particle of claim 2 , wherein selected region is in the visible range. 4. The lamellar particle of claim 1 , wherein the converted portion absorbs light in a region capable of being viewed by the human eye. 5. The lamellar particle of claim 1 , wherein the unconverted portion provides infrared reflectance and the converted portion modulates light in the visible range to create a desired color. 6. The lamellar particle of claim 5 , wherein the desired color is one of red, black, or white. 7. The lamellar particle of claim 1 , wherein the lamellar particle has an aspect ratio ranging of approximately 5:1 or higher. 8. The lamellar particle of claim 1 , wherein the unconverted portion includes a plurality of layers. 9. The lamellar particle of claim 8 , wherein the plurality of layers includes at least two different metals. 10. The lamellar particle of claim 9 , wherein each layer of the plurality of layers is made of a different metal than each other layer of the plurality of layers. 11. The lamellar particle of claim 1 , wherein the converted portion is chemically converted into a color chemical compound. 12. The lamellar particle of claim 1 , wherein the unconverted portion includes a plurality of layers each of a different metal and the converted portion is separated from the plurality of layers by a dielectric material. 13. The lamellar particle of claim 1 , wherein the converted portion provides at least one non-optical function. 14. The lamellar particle of claim 13 , wherein the at least one non-optical function includes at least one of metal chemical passivation, encapsulation, moisture protection, and improving interactions with various paint, varnish, ink, and other host materials. 15. The lamellar particle of claim 13 , wherein the converted portion offers a plurality of functions improving durability and reliability of the lamellar particle as a manufactured product or when dispersed in the paint, ink, varnish or other medium/carrier of choice or when applied in a final coating of dry and cured film of paint, ink, varnish, polymer or other medium. 16. A metallic effect pigment comprising a plurality of the lamellar particles of claim 1 . 17. A magnetic pigment comprising a plurality of the lamellar particles of claim 1 . 18. An EMI attenuating pigment comprising a plurality of the lamellar particles of claim 1 . 19. An electrically conductive pigment comprising a plurality of claim 1 . 20. A heat conducting pigment comprising a plurality of claim 1 .