Electroactive optical device

Therefore, we claim: 1. An electroactive optical device comprising: (a) an optical substrate having two opposing surfaces; (b) at least two electrodes spaced one from the other and disposed on the surface of the substrate; (c) at least one electroactive material layer in contact with the at least two electrodes (b) and the surface of the substrate (a) wherein the electroactive material layer comprises at least one electrochromic-dichroic material which is a single compound which is both electrochromic and dichroic in response to an applied voltage, and wherein the electroactive optical device has variable light transmittance in response to the magnitude of an applied electrical voltage. 2. The electroactive optical device of claim 1 , wherein the at least two electrodes (b) are comprised of a transparent conductive material. 3. The electroactive optical device of claim 1 , wherein upon application of an applied voltage, the electroactive material layer reversibly changes from a first absorption state to a second absorption state. 4. The electroactive optical device of claim 3 , wherein the first absorption state has essentially no absorption in the visible spectral region. 5. The electroactive optical device of claim 1 , wherein the electroactive material layer further comprises at least one electrochromic material and/or at least one dichroic material. 6. The electroactive optical device of claim 5 , wherein the electroactive material layer further comprises an anisotropic material. 7. The electroactive optical device of claim 1 , further comprising an alignment facility, and wherein the electrochromic-dichroic material is at least partially aligned. 8. The electroactive optical device of claim 1 , wherein the electroactive material layer is in the form of a polymeric coating layer or a polymeric gel layer. 9. The electroactive optical device of claim 1 , further comprising one or more protective coating layers applied to the electroactive material layer (c), and/or the surface of the optical substrate (a) which is opposite the surface comprising the electroactive layer (c) and the electrodes (b).