Abstract: A method of manufacturing an electric field emission type device. A recess having a tapered surface at an upper portion of the recess is provided. A sacrificial film is deposited on the substrate with the tapered recess. A sharp cusp is therefore formed on the surface of the sacrificial film over the recess. An electron emitting material film is deposited on the sacrificial film to form a fine emitter with a sharp tip. This fine emitter is exposed by etching and removing unnecessary regions under the fine emitter. This manufacturing method realizes a high performance electric field emission type device having an emitter tip with a small radius of curvature and a small apex angle.

Abstract: A ultra-clean, ULSI-supportable process is described for cleaning and etching very thin layers of a semiconductor surface in a gaseous ambient at approximately room temperature. An oxidized surface is etched and cleaned in the vapors of azeotropic, aqueous acids. The cleaning properties of the vapors of the aqueous acids are such that metallic contaminants residing at the surface or within the oxidized layer are complexed and later rinsed away in a rinsing process. The surface is then re-oxidized in an ozone ambient, the resultant oxidation reaction being self-limiting such that the oxide layer is grown to a consistent, predetermined thickness. The process may be repeated any number of times depending on the depth at which any contaminants reside.

Abstract: A resist is peeled without leaving a residue after peeling, by bringing a resist-peeling liquid comprising a primary aliphatic amine of 2-6 carbon atoms into contact with the surface of an etched novolak positive photoresist, and removing the resist-peeling liquid containing the thus peeled resist from the surface of the etched resist. The used resist-peeling liquid can easily be recovered and regenerated.