Fog development using a formative surface

What is claimed is: 1. A fountain solution delivery device for delivering fountain solution onto a target having a charge-retentive surface bearing an electrostatic charged pattern of charged regions thereon, the delivery device comprising: a fountain solution droplet generation member including a conductive layer having a reference potential, a dielectric layer above the conductive layer and an outer surface layer having a very low surface free energy material, the outer surface layer having pits patterned therein down to the dielectric layer to form a droplet generating patterned outer layer, the fountain solution droplet generation member being rotatable adjacent the target; a fountain solution vaporizer in communication with the droplet generating patterned outer layer to deposit fountain solution vapor to the pits, wherein fountain solution in the pits nucleate on the dielectric layer to form fountain solution droplets in the pits; and a surface charger configured to charge the droplet generating patterned outer layer and at least one of the fountain solution vapor and the fountain solution droplets to form charged fountain solution droplets nucleated in the pits, wherein the charged fountain solution droplets proximate to the target transfer under attraction from the pits to the charge-retentive surface and form a patterned fountain solution latent image on the target based on the electrostatic charged pattern. 2. The device of claim 1 , further comprising an electric field generator downstream from the surface charger in a processing direction of the rotatable fountain solution droplet generation member, the electric field generator configured to generate an electric field between the droplet generating patterned outer layer and the target and extract the charged fountain solution droplets from the pits into a fog of charged droplets. 3. The device of claim 2 , the electric field generator including a baffle between the fountain solution droplet generation member and the target and extending around the outer surface layer to adjacent the target, the baffle configured to confine a migration of the fog of charged droplets between the baffle and the droplet generation member until accessing the target beyond the baffle. 4. The device of claim 3 , wherein the baffle is configured to generate the electric field. 5. The device of claim 2 , wherein the electric field generator is configured to generate the electric field having both DC voltage and AC voltage. 6. The device of claim 1 , wherein the fountain solution droplet generation member and the target are spatially separated by a gap therebetween that is less than a millimeter. 7. The device of claim 6 , further comprising spacers between the outer surface layer and the target, the spacers contacting the target at non-imaging regions thereof and maintain the gap over the electrostatic charged pattern. 8. The device of claim 1 , wherein the outer surface layer very low surface free energy material includes a perfluorinated material coating. 9. The device of claim 1 , wherein the outer surface layer very low surface free energy material has a surface tension lower than 20 mN/m. 10. The device of claim 1 , wherein the dielectric layer has a surface energy, and the outer surface layer has a second surface energy lower than the surface energy of the dielectric layer. 11. The device of claim 1 , wherein the outer surface layer and dielectric layer are temperature controlled and cooled to expedite vapor condensation in the pits. 12. A method for delivering fountain solution onto a target having a charge-retentive surface bearing an electrostatic charged pattern of charged regions thereon with the fountain solution delivery device of claim 1 , comprising: a) rotating the droplet generating patterned outer layer adjacent the charge retentive surface; b) depositing fountain solution vapor to the droplet generating patterned outer layer with the fountain solution vaporizer, wherein fountain solution in the pits nucleate on the dielectric layer to form fountain solution droplets in the pits; c) charging the droplet generating patterned outer layer and at least one of the fountain solution vapor and the fountain solution droplets to form charged fountain solution droplets nucleated in the pits with a surface charger; and d) transferring the charged droplets proximate to the target under attraction from the pits to attach to the charge-retentive surface and form the patterned fountain solution latent image on the target based on the electrostatic charged pattern. 13. The method of claim 12 , further comprising, after Step c), generating an electric field between the droplet generating patterned outer layer and the target with an electric field generator downstream the surface charger in a processing direction of the rotatable fountain solution droplet generation member, the electric field extracting the charged fountain solution droplets from the pits into a fog of charged droplets. 14. The method of claim 13 , further including confining a migration of the fog of charged droplets between the droplet generation member and a baffle until access to the target beyond the baffle. 15. The method of claim 14 , further comprising generating the electric field via the baffle. 16. The method of claim 13 , further comprising generating the electric field including DC voltage and AC voltage with the electric field generator. 17. The method of claim 12 , wherein the surface charger charges the droplet generating patterned outer layer before Step b). 18. An imaging system useful for printing with an ink-based image forming apparatus having a target rotatable imaging member with a charge-retentive surface bearing an electrostatic charged pattern of charged regions thereon, the system comprising: an imager adjacent the charge-retentive surface that forms the electrostatic charged pattern on the surface; a fountain solution droplet generation member including a conductive layer having a reference potential, a dielectric layer wrapped around the conductive layer and a perfluorinated material outer surface layer, the outer surface layer having pits patterned therein down to the dielectric layer to form a droplet generating patterned outer layer, the fountain solution droplet generation member being rotatable adjacent the target; a fountain solution vaporizer in communication with the droplet generating patterned outer layer to deposit fountain solution vapor to the pits, wherein fountain solution in the pits nucleate on the dielectric layer to form fountain solution droplets in the pits; and a surface charger configured to charge the droplet generating patterned outer layer and at least one of the fountain solution vapor and the fountain solution droplets to form charged fountain solution droplets nucleated in the pits, wherein the charged droplets in the pits proximate to the target transfer under attraction to attach to the charge-retentive surface and form a patterned fountain solution latent image on the target based on the electrostatic charged pattern. 19. The imaging system of claim 18 , further comprising an electric field generator downstream from the surface charger in a processing direction of the rotatable fountain solution droplet generation member, the electric field generator configured to generate an electric field between the droplet generating patterned outer layer and the target and extract the charged fountain solution droplets from the pits into a fog of charged droplets. 20. T