Roll-to-roll light directed electrophoretic deposition system and method

We claim: 1. A roll-to-roll light-directed electrophoretic deposition system, comprising: means for advancing a roll of a flexible electrode web substrate along a roll-to-roll process path; a material source positioned along the process path to provide on the flexible electrode web substrate a thin film colloidal dispersion of electrically charged colloidal material dispersed in a fluid; a counter electrode positioned along the process path to come in contact with the thin film colloidal dispersion opposite the flexible electrode web substrate, wherein one of the counter electrode and the flexible electrode web substrate is a photoconductive electrode; a voltage source operably connected to produce an electric potential between the counter electrode and the flexible electrode web substrate that induces electrophoretic deposition of the electrically charged colloidal material on the flexible electrode web substrate when the photoconductive electrode is rendered conductive; and a patterned light source arranged to illuminate the photoconductive electrode with a light pattern and render conductive illuminated areas of the photoconductive electrode so that a patterned deposit of the electrically charged colloidal material is thereby electrophoretically deposited on the flexible electrode web substrate. 2. The roll-to-roll light directed electrophoretic deposition system of claim 1 , wherein the counter electrode is the photoconductive electrode. 3. The roll-to-roll light directed electrophoretic deposition system of claim 1 , wherein the flexible electrode web substrate is the photoconductive electrode. 4. The roll-to-roll light directed electrophoretic deposition system of claim 3 , wherein the flexible electrode web substrate comprises a photoconductive layer, a transparent conductive layer, and a flexible transparent backing layer. 5. A roll-to-roll light directed electrophoretic deposition system, comprising: a material source of a colloidal dispersion comprising electrically charged colloidal material dispersed in a fluid; a counter electrode; a flexible electrode conveyor belt adapted to convey a thin film of the colloidal suspension between the material source and the counter electrode so that the counter electrode comes in contact with the thin film colloidal dispersion opposite the flexible electrode conveyor belt, and wherein one of the counter electrode and the flexible electrode conveyor belt is a photoconductive electrode; a voltage source operably connected to produce an electric potential between the counter electrode and the flexible electrode conveyor belt that induces electrophoretic deposition of the electrically charged colloidal material on the flexible electrode conveyor belt when the photoconductive electrode is rendered conductive; and a patterned light source arranged to illuminate the photoconductive electrode with a light pattern and render conductive illuminated areas of the photoconductive electrode so that a patterned deposit of the electrically charged colloidal material is thereby electrophoretically deposited on the flexible electrode conveyor belt. 6. The roll-to-roll light directed electrophoretic deposition system of claim 5 , wherein the counter electrode is the photoconductive electrode. 7. The roll-to-roll light directed electrophoretic deposition system of claim 5 , wherein the flexible electrode web substrate is the photoconductive electrode. 8. The roll-to-roll light directed electrophoretic deposition system of claim 7 , wherein the flexible electrode web substrate comprises a photoconductive layer, a transparent conductive layer, and a flexible transparent backing layer. 9. A roll-to-roll light-directed electrophoretic deposition method, comprising: providing means for advancing a roll of a flexible electrode web substrate along a roll-to-roll process path; providing on the flexible electrode web substrate a thin film colloidal dispersion of electrically charged colloidal material dispersed in a fluid from a material source positioned along the process path; contacting a counter electrode positioned along the process path with the thin film colloidal dispersion opposite the flexible electrode web substrate, wherein one of the counter electrode and the flexible electrode web substrate is a photoconductive electrode; providing a voltage source operably connected to produce an electric potential between the counter electrode and the flexible electrode web substrate that induces electrophoretic deposition of the electrically charged colloidal material on the flexible electrode web substrate when the photoconductive electrode is rendered conductive; and illuminating the photoconductive electrode with a light pattern from a patterned light source to render conductive illuminated areas of the photoconductive electrode so that a patterned deposit of the electrically charged colloidal material is thereby electrophoretically deposited on the flexible electrode web substrate.