Filler fluids for droplet operations

We claim: 1. A droplet microactuator comprising: (a) a first substrate comprising electrodes configured to effect electrowetting mediated droplet operations on a surface of the first substrate; (b) a second substrate spaced from the surface of the first substrate by a distance sufficient to define an interior volume between the first substrate and the second substrate; and (c) a droplet and a filler fluid in the interior volume, wherein the droplet is surrounded by the filler fluid, and arranged with respect to the electrodes in a manner which permits electrowetting mediated droplet operations to be effected on the droplet using the electrodes, wherein the filler fluid comprises an oil and a surfactant, and wherein the surfactant is provided in an amount which ranges from about 0.001 to about 10% w/w. 2. The droplet microactuator of claim 1 wherein the filler fluid comprises one or more silicone oils. 3. The droplet microactuator of claim 1 wherein the filler fluid comprises one or more fluorosilicone oils. 4. The droplet microactuator of claim 1 wherein the filler fluid comprises one or more hydrocarbons. 5. The droplet microactuator of claim 1 wherein the filler fluid comprises one or more alkanes. 6. The droplet microactuator of claim 1 wherein the filler fluid comprises a component selected from the group consisting of decane, undecane, dodecane, tridecane, tetradecane, pentadecane, hexadecane. 7. The droplet microactuator of claim 1 wherein the filler fluid comprises a component selected from the group consisting of aromatic alkanes. 8. The droplet microactuator of claim 1 wherein the filler fluid comprises a mineral oil. 9. The droplet microactuator of claim 1 wherein the filler fluid comprises a paraffin oil. 10. The droplet microactuator of claim 1 wherein the filler fluid is solid at room temperature of about 25° C. 11. The droplet microactuator of claim 1 further comprising a second filler fluid surrounding or in contact with the filler fluid. 12. The droplet microactuator of claim 1 wherein the surfactant is a nonionic low HLB surfactant or a nonionic lipophile surfactant. 13. The droplet microactuator of claim 1 wherein the oil comprises a silicone oil and the surfactant comprises a nonionic lipophile surfactant. 14. The droplet microactuator of claim 1 wherein the surfactant is provided in an amount which ranges from about 0.001 to about 1% w/w. 15. The droplet microactuator of claim 1 wherein the surfactant is provided in an amount which ranges from about 0.001 to about 0.1% w/w. 16. The droplet microactuator of claim 1 wherein the filler fluid comprises silicone oil and the surfactant is a nonionic lipophile surfactant. 17. The droplet microactuator of claim 1 wherein the filler fluid comprises silicone oil and the surfactant is a nonionic lipophile surfactant in an amount which ranges from about 0.001 to about 1% w/w. 18. The droplet microactuator of claim 1 wherein the filler fluid comprises silicone oil and the surfactant is a nonionic lipophile surfactant in an amount which ranges from about 0.001 to about 0.1% w/w. 19. The droplet microactuator of claim 1 wherein the surfactant comprises nonionic low hydrophile-lipophile balanced (HLB) surfactant. 20. The droplet microactuator of claim 19 wherein the HLB is less than about 10. 21. The droplet microactuator of claim 19 wherein the HLB is less than about 5. 22. The droplet microactuator of claim 19 wherein the droplet comprises whole blood and the surfactant has an HLB which is less than about 2. 23. The droplet microactuator of claim 1 , wherein the droplet is one of a set of droplets comprising reagent droplets for executing an immunoassay protocol. 24. The droplet microactuator of claim 23 , wherein the reagent droplets comprise one or more wash droplets. 25. The droplet microactuator of claim 23 , wherein the reagent droplets comprise a droplet comprising an antibody immobilized on a surface of a magnetically responsive bead comprised in the droplet. 26. The droplet microactuator of claim 23 , wherein the reagent droplets comprise reagents for executing an immunoassay protocol, one or more of the droplets comprising a magnetically responsive bead having antibodies immobilized thereon; the droplets further comprising one or more wash droplets for washing the magnetically responsive antibody-capture bead and wherein each of the droplets is subject to one or more of the electrowetting droplet operations.