Secondary roller for fountain solution contact angle pinning

What is claimed is: 1. An ink-based image forming device having a rotatable inking blanket configured to accept a patterned fountain solution latent image and transfer an ink image based on the patterned fountain solution latent image, the ink-based image forming device comprising: a secondary roller having a reimageable surface layer in rolling contact with the rotatable inking blanket at a nip therebetween; a fountain solution deposition system adjacent the secondary roller, the fountain solution deposition system configured to deposit a layer of fountain solution onto the reimageable surface layer; a pixelated heat source adjacent the secondary roller and downstream the fountain solution deposition system, the pixelated heat source configured to vaporize the layer of fountain solution in an image-wise manner from the reimageable surface layer and form a patterned fountain solution latent image on the reimageable surface layer, wherein the secondary roller transfers at least a portion of the patterned fountain solution latent image to the rotatable inking blanket at the nip. 2. The image forming device of claim 1 , the reimageable surface layer having a textured surface designed to reduce lateral spreading of fountain solution via contact pinning of fountain solution on the textured surface. 3. The image forming device of claim 2 , wherein the textured surface is a pixeled surface having pixel sized lands surrounded by sharp edges between the pixel sized lands. 4. The image forming device of claim 2 , wherein the textured surface includes pixel sized lands having a width less than about 30 nm, the pixel sized lands being surrounded by sharp edges, the pixel sized lands having low-surface energy coating between the sharp edges that decreases the surface energy of the textured surface. 5. The image forming device of claim 2 , wherein the textured surface includes a porous nanostructured omniphobic surface that decreases the surface energy of the textured surface. 6. The image forming device of claim 1 , wherein the secondary roller includes a solid core, the reimageable surface layer including an optical absorber layer over the roller core. 7. The image forming device of claim 6 , the optical absorber layer including a fluoro-silicone surface layer loaded with one of carbon black and carbon nanotube therein. 8. The image forming device of claim 6 , the optical absorber layer including a fluoro-silicone surface layer loaded with a refractory metal carbide therein. 9. The image forming device of claim 6 , the optical absorber layer including carbon layers deposited by physical vapor deposition. 10. The image forming device of claim 6 , the optical absorber layer including a thermally insulating layer and a metal layer. 11. The image forming device of claim 10 , wherein the metal layer includes one of aluminum oxide on aluminum, and chromium oxide on chrome. 12. The image forming device of claim 1 , the secondary roller having a hollow core with a central drum chiller configured to lower the temperature of the patterned fountain solution latent image. 13. The image forming device of claim 1 , wherein the secondary roller includes a solid core, a metal layer, and a thermally insulating layer positioned between the metal layer and the solid core. 14. The image forming device of claim 1 , the fountain solution deposition system including a vapor development device having a manifold with walls defining a chamber adjacent the reimageable surface layer for transfer of fountain solution vapor into the chamber and condensation of the fountain solution vapor onto the reimageable surface layer as the layer of fountain solution. 15. The image forming device of claim 1 , wherein the secondary roller includes a solid core, a metal layer, and a thermally insulating layer positioned between the metal layer and the solid core. 16. A method of transferring a patterned fountain solution latent image to a rotatable inking blanket of an ink-based image forming device, the rotatable inking blanket configured to accept the patterned fountain solution latent image and transfer an ink image based on the patterned fountain solution latent image, the method comprising: depositing a fountain solution layer onto a reimageable surface layer of a secondary roller by a fountain solution deposition system, the secondary roller being in rolling contact with the rotatable inking blanket at a nip therebetween; vaporizing the layer of fountain solution in an image-wise manner from the reimageable surface layer via a pixelated heat source adjacent the secondary roller and downstream the fountain solution deposition system, the vaporizing forming the patterned fountain solution latent image on the reimageable surface layer; and transferring at least a portion of the patterned fountain solution latent image from the reimageable surface layer of the secondary roller to the rotatable inking blanket at the nip. 17. The method of claim 16 , the reimageable surface layer having a textured surface, the vaporizing contact pinning the fountain solution of the patterned fountain solution latent image between pixel land areas of the reimageable surface layer to avoid subsequent lateral spreading of the fountain solution on the textured surface. 18. The method of claim 16 , the depositing the fountain solution layer onto the reimageable surface layer of the secondary roller by the fountain solution deposition system including transferring a fountain solution vapor into a chamber of a vapor development device manifold having walls defining the chamber adjacent the reimageable surface layer for condensation of the fountain solution vapor onto the reimageable surface layer as the layer of fountain solution. 19. An ink-based image forming device having a rotatable inking blanket configured to accept a patterned fountain solution latent image and transfer an ink image based on the patterned fountain solution latent image, the ink-based image forming device comprising: a secondary roller including a reimageable surface layer in rolling contact with the rotatable inking blanket at a nip therebetween, the reimageable surface layer having a textured surface with pixel sized lands surrounded by sharp edges between the lands, the textured surface designed to reduce lateral spreading of fountain solution via contact pinning of the fountain solution on the textured surface, the secondary roller further including a hollow core with a central drum chiller configured to chill the reimageable surface to a freezing temperature of the fountain solution; a fountain solution deposition system adjacent the secondary roller, the fountain solution deposition system configured to deposit a layer of fountain solution onto the reimageable surface layer, the fountain solution deposition system including a vapor development device having a manifold with walls defining a chamber adjacent the reimageable surface layer for transfer of fountain solution vapor into the chamber and condensation of the fountain solution vapor onto the reimageable surface layer as the layer of fountain solution; a pixelated heat source adjacent the secondary roller and downstream the fountain solution deposition system, the pixelated heat source configured to vaporize the layer of fountain solution in an image-wise manner from the reimageable surface layer and form a patterned fountain solution latent image on the reimageable surface layer, wherein the secondary roller transfers at least a portion of the patterned fountain solution latent image to