Kit and system for laser-induced material dispensing

What is claimed is: 1. A laser-induced dispensing system, comprising: a cartridge assembly having a supply reel for supplying a foil having a light transmissive layer wound around the supply reel, and a take-up reel for taking up the foil; a coating device for coating the foil by a donor material during a motion of the foil; an irradiation head having optics configured for focusing a laser beam; and a controller for controlling (i) the cartridge assembly to establish the motion of the foil, and (ii) the optics to focus the laser beam onto the foil at a location downstream of an outlet of the coating device so as to release droplets of the donor material from the foil, wherein the foil further comprises a sacrificial protective layer above the light transmissive layer, and wherein the cartridge assembly further comprises a lift off reel for lifting off the sacrificial protective layer during the supply of the foil. 2. The laser-induced dispensing system according to claim 1 , further comprising a laser induced forward transfer system. 3. The laser-induced dispensing system according to claim 1 , wherein the coating device has an inlet for continuously receiving the foil from the supply reel, and a coating section between the inlet and the outlet, wherein the coating of the foil by the donor material occurs in the coating section, and wherein the outlet continuously releases the foil to be taken up by the take-up reel. 4. The laser-induced dispensing system according to claim 3 , wherein the coating device comprises a cavity located below the inlet and the outlet for holding the donor material, and a bias mechanism for biasing the donor material towards the foil so as to establish contact between the foil and the donor material during the motion of the foil. 5. The laser-induced dispensing system according to claim 4 , wherein the bias mechanism comprises a plunger and a mechanical biasing member for biasing the plunger towards the foil. 6. The laser-induced dispensing system according to claim 4 , wherein the bias mechanism comprises a plunger and a pressure port connectable to a pump for applying fluid pressure thereby to bias the plunger towards the foil. 7. The laser-induced dispensing system according to claim 1 , wherein the coating device is configured to coat the foil by applying the donor material to the foil from below the foil. 8. The laser-induced dispensing system according to claim 1 , wherein the coating device is configured to coat the foil by applying the donor material to the foil from above the foil. 9. The laser-induced dispensing system according to claim 1 , wherein the coating device comprises a nozzle for dispensing the donor material onto the foil. 10. The laser-induced dispensing system according to claim 1 , wherein the coating device comprises a donor material inlet connectable to a source of donor material for supplying the donor material to the coating device. 11. The laser-induced dispensing system according to claim 1 , wherein the coating device comprises a plurality of cavities, each containing a different donor material, and a mixing chamber in fluid communication with each of the cavities for mixing donor materials from different cavities prior to the coating, and wherein the controller is configured for controlling individual pressures within the cavities, the individual pressures being selected to provide a predetermined mixing ratio among the donor materials. 12. The laser-induced dispensing system according to claim 1 , further comprising a source of donor material connectable to the coating device via a conduit, and a bidirectional pump for establishing flow of the donor material in the conduit, wherein the controller is configured to control the bidirectional pump in a temporally selective manner. 13. The laser-induced dispensing system according to claim 1 , wherein the controller is configured to control the coating device to vary a thickness of the donor material on the foil. 14. The laser-induced dispensing system according to claim 1 , further comprising an imaging device for imaging a section of the foil, in situ, before the foil interacts with the laser beam. 15. The laser-induced dispensing system according to claim 1 , further comprising a cooling element for cooling the donor material. 16. The laser-induced dispensing system according to claim 15 , wherein the cooling is to a temperature above, but within less than 5° C. from, a freezing temperature of the donor material. 17. A laser-induced dispensing system, comprising: a cartridge assembly having a supply reel for supplying a foil having a light transmissive layer wound around the supply reel, and a take-up reel for taking up the foil; a coating device for coating the foil by a donor material during a motion of the foil; an irradiation head having optics configured for focusing a laser beam; and a controller for controlling (i) the cartridge assembly to establish the motion of the foil, and (ii) the optics to focus the laser beam onto the foil at a location downstream of an outlet of the coating device so as to release droplets of the donor material from the foil, wherein the foil further comprises a heat conducting layer below the light transmissive layer for transferring heat to the donor material. 18. The laser-induced dispensing system according to claim 17 , wherein the foil further comprises a passivation layer below the heat conducting layer. 19. The laser-induced dispensing system according to claim 17 , wherein the controller is further configured for activating and deactivating the coating by the coating device. 20. The laser-induced dispensing system according to claim 17 , wherein the controller is further configured for controlling the coating device to coat the foil at a predetermined rate. 21. The laser-induced dispensing system according to claim 17 , further comprising a waste collector for removing donor material that remains on the foil following the release of the droplets from the foil. 22. The laser-induced dispensing system according to claim 17 , wherein the irradiation head comprises a laser source mounted on a body of the irradiation head for generating the laser beam. 23. The laser-induced dispensing system according to claim 17 , wherein the optics is configured for coupling the laser beam to the irradiation head from a laser source generating the laser beam and located external to the irradiation head. 24. The laser-induced dispensing system of claim 23 , wherein the coupling is by direct propagation of the laser beam. 25. The laser-induced dispensing system of claim 23 , wherein the coupling is by an optical waveguide. 26. The laser-induced dispensing system according to claim 17 , further comprising a plurality of irradiation heads for generating a plurality of laser beam focal spots. 27. The laser-induced dispensing system according to claim 26 , further comprising a beam scanning system configured for scanning the laser beam to selectively couple the laser beam into the irradiation heads. 28. The laser-induced dispensing system according to claim 27 , wherein at least two of the irradiation heads comprises an array of optical nozzles for generating the plurality of laser beam focal spots, wherein the at least two irradiation heads are arranged to form a two-dimensional array of the optical nozzles, and wherein the beam sc