Highly conducting and transparent film and process for producing same

We claim: 1. An optically transparent and electrically conductive film composed of a mixture of metal nanowires and carbon nanotubes combined with pristine graphene sheets with a metal nanowire-to-graphene weight ratio of from 1/99 to 99/1; wherein said nanowires have a diameter or thickness no greater than 100 nm; wherein said pristine graphene sheets are single-crystalline and essentially defect-free except at the graphene plane edges, and contain no oxygen and no hydrogen; wherein said film is supported on a transparent substrate and said mixture of metal nanowires and nanotubes are co-deposited with graphene to form an integral layer of conductive graphene sheets and metal nanowires or graphene sheets and both metal nanowires and carbon nanotubes wherein said metal nanowires or said mixture of metal nanowires and carbon nanotubes are embedded in said pristine graphene sheets. 2. An optically transparent and electrically conductive film composed of metal nanowires combined with pristine graphene sheets with a metal nanowire-to-graphene weight ratio from 1/99 to 99/1, wherein said metal nanowires have a diameter or thickness no greater than 100 nm, wherein said pristine graphene sheets contain no oxygen and no hydrogen and are essentially defect-free except at the graphene plane edges, wherein the metal nanowires are co-deposited with graphene to form an integral layer of conductive graphene sheets and metal nanowires and said nanowires and graphene platelets form random networks, and said metal nanowires are embedded in said pristine graphene sheets, and wherein said film is supported by a transparent substrate, wherein said metal nanowires are selected from nanowires of cadmium (Cd), cobalt (Co), molybdenum (Mo), an alloy thereof, or a combination thereof. 3. A process for producing the optically transparent and electrically conductive film of claim 1 , said process comprising (a) preparing a solution or suspension of pristine graphene in a liquid medium; (b) dispersing metal nanowires or carbon nanotubes into said solution or suspension to form a mixture dispersion; (c) dispensing and depositing said mixture dispersion at a controlled rate onto a supporting substrate; and (d) removing said liquid medium from said mixture dispersion deposited on said supporting substrate to form said optically transparent and electrically conductive film. 4. A process for producing the optically transparent and electrically conductive film of claim 1 , said process comprising (a) preparing a first solution or suspension of pristine graphene in a first liquid medium; (b) preparing a second suspension of metal nanowires or carbon nanotubes in a second liquid medium; (c) dispensing and depositing said first solution or suspension and said second suspension, concurrently or sequentially, at a controlled rate onto a supporting substrate; and (d) removing said first liquid medium and said second liquid medium to form said optically transparent and electrically conductive film. 5. The process of claim 4 , wherein said step (c) includes dispensing and depositing said second suspension prior to dispensing and depositing said first suspension to produce a layer of metal nanowires or carbon nanotubes covered by a layer of pristine graphene in said optically transparent and electrically conductive film. 6. The optically transparent and electrically conductive film of claim 1 , wherein the majority of said pristine graphene are single-layer graphene or double layer graphene sheets. 7. The optically transparent and electrically conductive film of claim 1 , wherein said metal nanowires are selected from the group consisting of nanowires of silver (Ag), gold (Au), copper (Cu), platinum (Pt), zinc (Zn), cadmium (Cd), cobalt (Co), molybdenum (Mo), aluminum (Al), alloy thereof, and combination thereof. 8. The optically transparent and electrically conductive film of claim 1 , wherein said film exhibits an optical transparence no less than 85% and sheet resistance no higher than 30 ohm/square. 9. The optically transparent and electrically conductive film of claim 1 , wherein said transparent substrate contains a functionalized surface for improved adhesion between said substrate and said graphene, nanotubes, or nanowires. 10. The optically transparent and electrically conductive film of claim 2 , wherein said transparent substrate contains a functionalized surface for improved adhesion between said substrate and said graphene or nanowires. 11. The optically transparent and electrically conductive film of claim 2 , wherein the majority of said pristine graphene are single-layer graphene or double layer graphene sheets. 12. The optically transparent and electrically conductive film of claim 2 , wherein said film exhibits an optical transparence no less than 85% and sheet resistance no higher than 30 ohm/square.