Methods and apparatus for surface wetting control

What is claimed is: 1. Apparatus to expel fluid from a droplet on a surface using a transducer mechanically coupled to the surface, the apparatus comprising: a first area of the surface having a first wettability for the fluid; and a second area of the surface having a second wettability for the fluid, in which the second wettability of the second area of the surface is greater than the first wettability of the first area of the surface, and the first area and the second area have a patterned arrangement; wherein the transducer is configured to excite a vibrational mode of the surface having a greater extent of vibration at the second area than at the first area. 2. The apparatus of claim 1 , wherein a first edge of the first area is proximate to a second edge of the second area in the patterned arrangement. 3. The apparatus of claim 1 , wherein: the first area is a plurality of first areas; the second area is a plurality of second areas; and the patterned arrangement of the first and second areas is an alternating arrangement in which a member of the first areas is interposed between a pair of members of the second areas. 4. The apparatus of claim 1 , wherein: the first area is a plurality of first areas; the second area is a plurality of second areas; and the patterned arrangement of the first and second areas is an alternating arrangement in which a member of the second areas is interposed between a pair of members of the first areas. 5. The apparatus of claim 1 , wherein the second wettability of the second area of the surface is sufficiently greater than the first wettability of the first area of the surface to cause at least some movement of the droplet from the first area to the second area. 6. Apparatus to expel fluid from a droplet on a surface using a transducer mechanically coupled to the surface, the apparatus comprising: a first area of the surface having a first wettability for the fluid; and a second area of the surface having a second wettability for the fluid, in which the second wettability of the second area of the surface is greater than the first wettability of the first area of the surface, and the first area and the second area have a patterned arrangement; wherein: the first area is a plurality of first areas; the second area is centrally arranged between a pair of members of the first areas; and the first areas have respective increasing gradients of wettability in respective directions centrally oriented towards the second area. 7. The apparatus of claim 6 , further comprising a signal generator configured to generate a first signal having a first frequency to reduce the droplet from a first size to a second size, and to generate a second signal having a second frequency to reduce the droplet from the second size to a third size. 8. The apparatus of claim 7 , wherein the first area has a first width dimension that is greater than a corresponding width of the second size of the droplet. 9. The apparatus of claim 7 , wherein the second area has a second width dimension that is greater than a corresponding width of the second size of the droplet. 10. The apparatus of claim 7 , wherein the first area has a first width dimension that is greater than a corresponding width of the third size of the droplet. 11. The apparatus of claim 7 , wherein the second area has a second width dimension that is greater than a corresponding width of the third size of the droplet. 12. The apparatus of claim 7 , wherein the first frequency is higher than the second frequency. 13. The apparatus of claim 7 , wherein the first frequency is within a first resonant frequency band of the transducer, and the second frequency is within a second resonant frequency band of the transducer. 14. Apparatus to expel fluid of a droplet from a surface using a transducer mechanically coupled to the surface, the apparatus comprising: first and second adjacent areas of the surface in which the droplet overlaps the first and second areas of the surface, and the first area has a first wettability that is greater than a second wettability of the second area; and a signal generator configured to generate a signal having a frequency to reduce a size of the droplet; wherein the frequency of the signal generator is to excite a vibrational mode of the surface having a greater extent of vibration at the second area than at the first area.