Printer with gas extraction of printing fluid from printing nozzle

The invention claimed is: 1. A printer comprising a print head, the print head comprising: a printing nozzle having a tip and being configured to supply a printing fluid in bulk liquid form at the tip for extraction from the printing nozzle; and an extraction gas nozzle comprising a gas discharge port configured to discharge a stream of extraction gas along an outer surface of the printing nozzle and toward a printing substrate, wherein the tip of the printing nozzle is axially spaced from the gas discharge port and located in the stream of extraction gas between the gas discharge port and the printing substrate, a velocity of the extraction gas being sufficient to continuously extract the printing fluid from the printing nozzle and carry the extracted printing fluid to the printing substrate, and wherein the extraction gas nozzle includes an electrode configured to provide an electric field between the electrode and the printing substrate such that the printing fluid accelerates toward the printing substrate after extraction. 2. The printer of claim 1 , wherein the printing fluid is pressurized in the printing nozzle and the printing fluid has a composition that prevents the printing fluid from being forced out of the tip of the printing nozzle in the absence of the stream of extraction gas. 3. The printer of claim 1 , wherein the gas discharge port is annular and surrounds the nozzle. 4. The printer of claim 1 , wherein a distance between the tip of the printing nozzle and the printing substrate is less than a distance between the gas discharge port and the printing substrate. 5. The printer of claim 1 , wherein the printing nozzle is electrically insulating. 6. The printer of claim 1 , further comprising an additional gas discharge port configured to provide a shroud of focusing gas around the extracted printing fluid between the printing nozzle and the printing substrate. 7. The printer of claim 1 , wherein the extraction gas extracts the printing fluid from the printing nozzle in the presence of a continuous electrostatic field arranged to accelerate the extracted printing fluid toward the printing substrate. 8. The printer of claim 7 , wherein the electrode provides the electrostatic field between the extraction gas nozzle and the printing substrate. 9. The printer of claim 1 , wherein the extraction gas nozzle coaxial with and surrounds the printing nozzle such that the extraction gas flows along an annular gap at the outer surface of the printing nozzle before being discharged from the extraction gas nozzle and converging at the tip of the printing nozzle. 10. The printer of claim 9 , further comprising a focusing nozzle that is coaxial with and surrounds the extraction gas nozzle such that a focusing gas flows along an annular gap at an outer surface of the extraction gas nozzle before being discharged from the focusing nozzle to provide a shroud of focusing gas around the extracted printing fluid between the printing nozzle and the printing substrate. 11. The printer of claim 1 , wherein the printer can be changed between a gas-extraction mode and an e-assisted mode by switching a voltage applied to the electrode respectively off and on. 12. A printer comprising a print head having a printing nozzle and an extraction gas nozzle, the printer being configured to selectively generate an electrostatic field between an electrode of the extraction gas nozzle and a substrate and to selectively discharge an extraction gas from the extraction gas nozzle such that the extraction gas flows along a tip of the printing nozzle outside of the extraction gas nozzle, wherein the printer is operable to deposit printing fluid extracted from the printing nozzle onto the substrate in: a gas-extraction mode, in which the extraction gas is pressurized in the extraction gas nozzle and discharged from the extraction gas nozzle to extract the printing fluid from the printing nozzle and no voltage is supplied to the electrode so that the electrostatic field is not generated; an e-assisted mode, in which the extraction gas is pressurized in the extraction gas nozzle and discharged from the extraction gas nozzle to extract the printing fluid from the printing nozzle and a voltage is supplied to the electrode so that the electrostatic field is generated; and an e-jet mode, in which the extraction gas is not discharged from the extraction gas nozzle and a voltage is supplied to the electrode so that the electrostatic field is generated to extract the printing fluid from the printing nozzle. 13. The printer of claim 12 , wherein the electrode circumscribes the printing nozzle. 14. The printer of claim 12 , wherein the extraction gas nozzle is concentric with the printing nozzle, and wherein the extraction gas flows along a gap between the nozzles before flowing along the tip of the printing nozzle in the gas-extraction mode and the e-assisted mode. 15. The printer of claim 12 , wherein the printer can be changed between the gas-extraction mode and the e-assisted mode by switching an electrode voltage respectively off and on. 16. The printer of claim 12 , wherein the tip of the printing nozzle is located between the extraction gas nozzle and the printing substrate. 17. A printer comprising a print head, the print head comprising: a printing nozzle having a tip and being configured to supply a printing fluid in bulk liquid form at the tip for extraction from the printing nozzle; and a first gas discharge port configured to discharge a stream of extraction gas along an outer surface of the printing nozzle and toward a printing substrate, wherein the tip of the printing nozzle is axially spaced from the first gas discharge port and located in the stream of extraction gas between the first gas discharge port and the printing substrate, a velocity of the extraction gas being sufficient to continuously extract the printing fluid from the printing nozzle and carry the extracted printing fluid to the printing substrate, the printer further comprising a second gas discharge port configured to provide a shroud of focusing gas around the extracted printing fluid between the printing nozzle and the printing substrate. 18. The printer of claim 17 , further comprising an electrode configured to provide an electric field between the electrode and the printing substrate such that the printing fluid accelerates toward the printing substrate after extraction from the printing nozzle. 19. The printer of claim 17 , further comprising an electrode configured to selectively generate an electric field between the electrode and the printing substrate, wherein the printer can be changed between a gas-extraction mode and an e-assisted mode by switching voltage applied to the electrode respectively off and on.