Abstract: A method of manufacturing an electron-emitting device that has an electroconductive film containing an electron-emitting region disposed between a pair of device electrodes includes a process of forming the electroconductive film by the steps of (a) applying a metal-containing solution, and (b) heating the solution. The metal-containing solution comprises a compound containing an organic acid group, a transition metal and an alcohol amine, and water.

Abstract: The method is suitable to make sodium high-pressure discharge lamps operag operating under saturated condition. After placing and melt-sealing a first electrode system into the discharge vessel, sodium is introduced in the form of NaN.sub.3 through the second end of the vessel. Upon heating of the second end, and due to heat conduction, the NaN.sub.3, collected at the first end, dissociates, resulting in a sudden pressure rise due to liberation of nitrogen within a vacuum. As soon as the nitrogen has dissipated, noble gas to cool the first end is introduced, and the second melt seal is then made. The noble gas may, at the same time, form an ignition gas, or a gas mixture for the discharge lamp. One or more half-finished lamps are preferably held in a holder structure which has vertical bores leaving a gap of between 0.2 to 3 mm between the wall surface of the bore and the vessel and, as such, are introduced into a vacuum furnace, where the pressure can be monitored.

Abstract: A process of dosing the arc tube of an unsaturated vapor high pressure sodium lamp wherein a sodium-containing compound, an oxygen-absorbing getter, mercury and a rare gas are deposited within the arc tube, and the arc tube is sealed whereby thermal decomposition of the sodium-containing compound is effected within the arc tube and the getter prevents compound reformation by absorbing the oxygen therein.