Method of making a highly absorptive dye-containing underlayer for laser recording and data storage
First Claim
1. A method of making a reflective laser recording and optical data storage medium comprising,forming a layer of silver precipitating nuclei from a portion of the silver halide within a photosensitive, silver-halide emulsion layer,contacting said nucleated emulsion layer with a chromogenic reducing agent and a chromogenic dye coupler whereby silver halide is converted into black filamentary silver particles and oxidized reducing agent formed in the reduction of said silver-halide couples with said dye coupler to form organic dye molecules in an underlayer, andforming a reflective metal layer over said underlayer.
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Abstract
A method of making an underlayer for a laser recording and data storage medium with a light absorption characteristic suited to a recording laser. The underlayer is formed by creating a nuclei layer in a silver-halide photosensitive emulsion layer and then contacting the emulsion layer with a chromogenic reducing agent and a chromogenic dye coupler. The reflective layer may be formed prior to this step by subjecting the nuclei layer to a monobath having a silver-halide solvent and a silver reducing agent until a reflective surface layer of non-filamentary silver particles is formed, or after the step by chemical vapor deposition or sputtering of a reflective metal layer over the underlayer.
15 Citations
6 Claims
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1. A method of making a reflective laser recording and optical data storage medium comprising,
forming a layer of silver precipitating nuclei from a portion of the silver halide within a photosensitive, silver-halide emulsion layer, contacting said nucleated emulsion layer with a chromogenic reducing agent and a chromogenic dye coupler whereby silver halide is converted into black filamentary silver particles and oxidized reducing agent formed in the reduction of said silver-halide couples with said dye coupler to form organic dye molecules in an underlayer, and forming a reflective metal layer over said underlayer.
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3. A method of making a reflective optical data storage medium comprising,
forming a layer of silver precipitating nuclei from a portion of the silver halide within a photosensitive silver-halide emulsion layer, contacting said nucleated emulsion with a monobath comprising a silver-halide solvent and a silver-reducing agent, whereby another portion of silver halide forms soluble silver ion complexes and is transported by diffusion transfer to said precipitating nuclei, where said silver ion complexes are reduced to non-filamentary silver particles to form a reflective surface layer in said emulsion, contacting said nucleated and monobath treated emulsion layer with a chromogenic reducing agent and a chromogenic dye coupler whereby remaining silver halide is converted into black filamentary silver particles and oxidized reducing agent formed in the reduction of said silver-halide couples with said dye coupler to form organic dye molecules in an underlayer beneath said reflective surface layer.
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5. A method of making a reflective optical data storage medium comprising,
forming a layer of silver precipitating nuclei from a portion of the silver halide within a photosensitive silver-halide emulsion layer disposed on a substrate, the nuclei layer having a major surface distal to the substrate with a depthwise nuclei gradient with greatest nuclei density distal to the substrate, contacting said nucleated emulsion layer with a monobath comprising an active silver-halide solvent and a photographic developer of low reducing activity until reflective spheroid particles and agglomerates are formed on the nuclei in said nuclei layer, and contacting said nucleated and monobath treated emulsion layer with a strong chromogenic reducing agent and a chromogenic dye coupler whereby silver halide is converted into black filamentary silver particles and oxidized reducing agent formed in the reduction of said silver-halide couples with said dye coupler to form a light absorptive underlayer in said emulsion layer.
Specification