White inks

What is claimed is: 1. A white ink, comprising: an aqueous ink vehicle; and from 5 wt % to 60 wt % of a white flocculated colorant mass, comprising: white metal oxide pigment having an average particulate size from 100 nm to 2,000 nm, silica coated on the white metal oxide pigment forming a silica-coated pigment, wherein the white metal oxide pigment content to silica content is from 100:3.5 to 5:1 by weight, and a polymeric dispersant associated with a surface of the silica-coated pigment. 2. The white ink of claim 1 , further comprising alumina also coated on the white metal oxide pigment. 3. The white ink of claim 2 , wherein the white metal oxide pigment content to total silica and alumina content is from 50:3 to 4:1 by weight. 4. The white ink of claim 1 , wherein the white ink comprises from 5 wt % to 50 wt % white metal oxide pigment, from 0.175 wt % to 10 wt % silica, and from 0.005 wt % to 5 wt % polymeric dispersant. 5. The white ink of claim 1 , wherein the white metal oxide pigment includes titanium dioxide particulates, zinc oxide particulates, zirconium oxide particulates, or combinations thereof. 6. The white ink of claim 1 , wherein the white ink further comprises latex particulates having a glass transition temperature from −20° C. to 130° C. 7. The white ink of claim 1 , wherein the polymeric dispersant includes a short-chain anionic dispersant having an acid number higher than 100 mg KOH/g based on dry polymer weight, or a non-ionic or predominantly non-ionic dispersant having an acid number not higher than 100 mg KOH/g based on dry polymer weight, or both. 8. The white ink of claim 1 , wherein the white ink is in an agitated state so that the white flocculated colorant mass is resuspended in the form of a suspended white colorant in the liquid vehicle. 9. The white ink of claim 1 , wherein the white ink is non-Newtonian as defined by viscosity measured at a 10 sec −1 shear rate that is at least 10% higher than the viscosity measured at shear rate of 1000 sec −1 at 25° C. 10. A method of making a white ink, comprising: milling a white metal oxide pigment coated with precipitated silica in a water-based carrier with a polymeric dispersant to form a white dispersion containing a suspended white colorant, the suspended white colorant, comprising: white metal oxide pigment having an average particulate size from 100 nm to 2,000 nm, silica coated on the white metal oxide pigment forming a silica-coated pigment, wherein the white metal oxide pigment content to silica content is from 100:3.5 to 5:1 by weight, and a polymeric dispersant associated with the silica-coated pigment; and admixing an aqueous liquid vehicle with the white dispersion to form a white ink. 11. The method of claim 10 , further comprising allowing the white ink to destabilize the suspended white colorant to form a white flocculated colorant mass. 12. The method of claim 10 , further comprising admixing latex particulates with the white dispersion or the white ink, wherein the white ink comprises: from 5 wt % to 60 wt % of the suspended white colorant; from 0.1 wt % to 15 wt % of the silica; from 0.005 wt % to 5 wt % of the polymeric dispersant; and from 2 wt % to 30 wt % of the latex particulates having a glass transition temperature from −20° C. to 130° C. 13. A fluid set for inkjet imaging, comprising: a white ink, comprising: an aqueous ink vehicle; from 5 wt % to 60 wt % of a white flocculated colorant mass suspended in the aqueous ink vehicle, said white flocculated colorant mass, comprising: white metal oxide pigment having an average particulate size from 100 nm to 2,000 nm, silica coated on the white metal oxide pigment forming a silica-coated pigment, wherein the white metal oxide pigment content to silica content is from 100:3.5 to 5:1 by weight, and a polymeric dispersant associated with the silica-coated pigment; and a fixer fluid, comprising: aqueous fixer vehicle, and from 0.1 wt % to 25 wt % cationic polymer. 14. The fluid set of claim 13 , wherein the white ink is formulated for inkjet application upon agitation to resuspend the white flocculated colorant mass to and form a suspended white colorant in the liquid vehicle, and wherein the fixer fluid is formulated (i) for inkjet application having a viscosity from 1 cP to 35 cP at 25° C., or (ii) for analog application having a viscosity from 1 cP to 500 cP at 25° C. 15. The fluid set of claim 13 , wherein the white ink further comprises alumina also coated on the white metal oxide pigment, and wherein the white metal oxide pigment content to total silica and alumina content is from 50:3 to 4:1 by weight. 16. The fluid set of claim 13 , wherein the white ink comprises from 5 wt % to 50 wt % white metal oxide pigment, from 0.175 wt % to 10 wt % silica, and from 0.005 wt % to 5 wt % polymeric dispersant. 17. The fluid set of claim 13 , wherein the white metal oxide pigment includes titanium dioxide particulates, zinc oxide particulates, zirconium oxide particulates, or combinations thereof. 18. The fluid set of claim 13 , wherein the white ink further comprises latex particulates having a glass transition temperature from −20° C. to 130° C. 19. The fluid set of claim 13 , wherein the polymeric dispersant includes a short-chain anionic dispersant having an acid number higher than 100 mg KOH/g based on dry polymer weight, or a non-ionic or predominantly non-ionic dispersant having an acid number not higher than 100 mg KOH/g based on dry polymer weight, or both. 20. The fluid set of claim 13 , wherein the white ink is in an agitated state so that the white flocculated colorant mass is resuspended in the form of a suspended white colorant in the liquid vehicle.