Maintenance valve for fluid ejection head

What is claimed is: 1. An ejection chip comprising: a substrate that includes one or more fluid channels and one or more fluid ports each in communication with at least one of the one or more fluid channels; a flow feature layer disposed over the substrate, the flow feature layer include one or more flow features each in communication with at least one of the one or more fluid ports; a nozzle plate disposed over the flow feature layer, the nozzle plate including one or more nozzles each in communication with at least one of the one or more flow features so that one or more fluid paths are defined by the one or more fluid channels, the one or more fluid ports, the one or more flow features, and the one or more nozzles; and one or more valves directly secured at opposite ends of the one or more fluid ports and that selectively impede flow of fluid through the one or more fluid paths. 2. The ejection chip of claim 1 , wherein the one or more valves are disposed under the substrate. 3. The ejection chip of claim 1 , wherein the one or more valves are disposed over the substrate. 4. The ejection chip of claim 1 , wherein the one or more valves impede flow of fluid through select fluid paths of the one or more fluid paths during a maintenance operation. 5. The ejection chip of claim 1 , wherein the one or more valves impede flow of fluid flow through select fluid paths of the one or more fluid paths during a jetting operation. 6. The ejection chip of claim 1 , further comprising one or more ejector elements disposed on the substrate. 7. The ejection chip of claim 1 , wherein at least one of the one or more valves selectively impede flow of fluid at the one or more fluid ports. 8. The ejection chip of claim 1 , wherein the one or more valves comprise flexible membranes that selectively impede flow of fluid into the one or more fluid paths. 9. The ejection chip of claim 8 , wherein the flexible membranes are formed of an elastomer. 10. The ejection chip of claim 8 , further comprising a pneumatic channel configured to create a pressure differential along at least one of the one or more fluid paths so that the flexible membrane deflects toward a region of lower pressure. 11. The ejection chip of claim 8 , wherein the flexible membranes are configured to engage a wall to selectively impede the flow of fluid along at least one of the one or more fluid paths. 12. The ejection chip of claim 1 , wherein the one or more valves comprise a bimetallic valve. 13. The ejection chip of claim 12 , wherein the bimetallic valve comprises a plurality of materials each having a different coefficient of thermal expansion. 14. The ejection chip of claim 13 , wherein the bimetallic valve is configured to be heated such that the bimetallic valve deflects in the direction of the material of the plurality of materials having the lowest coefficient of thermal expansion. 15. The ejection chip of claim 12 , wherein the bimetallic valve extends entirely across at least one of the one or more fluid ports. 16. The ejection chip of claim 12 , wherein the bimetallic valve is spaced away from the one or more fluid ports by one or more mounts. 17. The ejection chip of claim 1 , wherein at least one of the one or more valves may be a piezoelectric valve or an electrostatic valve. 18. An ejection chip comprising: a substrate that includes one or more fluid channels and one or more fluid ports each in communication with at least one of the one or more fluid channels; a flow feature layer disposed over the substrate, the flow feature layer comprises one or more flow features each in communication with at least one of the one or more fluid ports; a nozzle plate disposed over the flow feature layer, the nozzle plate comprises one or more nozzles each in communication with at least one of the one or more flow features so that one or more fluid paths are defined by the one or more fluid channels, the one or more fluid ports, the one or more flow features, and the one or more nozzles; and one or more valves comprising a bubble of evaporated fluid that forms a fluid discontinuity to selectively impede a flow of fluid through the one or more fluid paths.