Patent ID: 6174768
Filing Date: 2001-01-16
Classification: H01L

Abstract:
A method of forming a fin-structured memory cell capacitor over a semiconductor substrate, said method comprising the steps of:forming an inter-layer insulator over a silicon substrate, said inter-layer insulator including at least two interconnections distanced at a pitch in a lateral direction, said two interconnections each having a cross-section with four sides;forming laminations of a plurality of pairs of first conductive films and spacer layers over said inter-layer insulator, the pairs of spacer layers being formed first so that a first pair of spacer layers is intermediate said inter-layer insulator and a first pair of the first conductive films;forming a first contact hole which vertically extends through said laminations of said first conductive films and said spacer layers and partially through said inter-layer insulator so that said inter-layer insulator forms a bottom portion of said first contact hole, said first contact hole having a first diameter;forming a second conductive film which extends both over said laminations of said first conductive films and said spacer layers and on side walls and the bottom of said first contact hole, a vertical planar wall of the second conductive film extending into the inter-layer insulator;subjecting said second conductive film to an etch back to leave said second conductive film as an inner conductive film only on said side walls of said first contact hole;selectively etching said inter-layer insulator by use of said inner conductive film and an uppermost spacer layer of said laminations as a mask to form a second contact hole within said inter-layer insulator so that a part of said semiconductor substrate is shown through said second contact hole, said second contact hole having a diameter defined by an interior diameter of said inner conductive film on said side walls of said first contact hole so that said second contact hole is smaller in diameter than said first contact hole by two times of a thickness of said inner conductive film remaining on said side walls of said first contact hole;forming a third conductive film which extends not only within and completely fills said second contact hole in said inter-layer insulator but also between and completely fills said inner conductive film remaining on said side walls as well as over said laminations of said first conductive films and said spacer layers and contacting an uppermost conductive film of said laminations;patterning said third conductive film extending over said laminations of said first conductive films and said spacer layers and said laminations of said first conductive films and said spacer layers;subjecting said spacer layers to an etching to remove said spacer layers and leave said first conductive films laterally and radially extending from said second conductive film remaining on said side walls so that said first conductive films are distanced in a vertical direction by a pitch defined by a thickness of said spacer layers and all of said first conductive films are free of contact from any insulator thereby to form a fin-structured storage electrode;forming a capacitive insulation film not only on surfaces of said first conductive films but also on surfaces of said third conductive film extending over said uppermost lamination of said first conductive films as well as surfaces of said inner conductive film extending in said first contact hole; andforming an opposite electrode on said capacitive insulation film.