| 主权项 |
1. A manufacturing method of a nonvolatile semiconductor memory device, the nonvolatile semiconductor memory device comprising:
a plurality of first wires formed above a semiconductor substrate and extending in a first direction of a main surface of the semiconductor substrate; a plurality of diodes formed above the respective plurality of first wires at a predetermined interval; a plurality of nonvolatile memories formed above the plurality of diodes and electrically connected to the plurality of diodes; and a plurality of second wires formed above the plurality of nonvolatile memories and extending in a second direction orthogonal to the first direction, each of the plurality of diodes functioning as a selective element of each of the plurality of nonvolatile memories, each of the plurality of diodes having a column-shaped stacked structure vertically stacked above the main surface of the semiconductor substrate, the stacked structure including:
a first-conductivity type semiconductor layer having a first resistivity, formed above each of the plurality of first wires and electrically connected to the plurality of first wires;a plurality of polycrystalline semiconductor layers each having a second resistivity higher than the first resistivity, stacked above the first-conductivity type semiconductor layer; anda second-conductivity type semiconductor layer having a third resistivity lower than the second resistivity, formed above the plurality of polycrystalline semiconductor layers and electrically connected to the plurality of nonvolatile memories, and the plurality of first wires and the plurality of second wires configuring word lines and bit lines for selecting the plurality of nonvolatile memories, the manufacturing method comprising the steps of: (a) above the semiconductor substrate, sequentially forming a first metal film, the first-conductivity type semiconductor layer, a plurality of semiconductor layers each having the second resistivity higher than the first resistivity, and the second-conductivity type semiconductor layer; (b) processing the second-conductivity type semiconductor layer, the plurality of semiconductor layers, the first-conductivity type semiconductor layer, and the first metal film in a stripe shape along the first direction to form a plurality of first patterns each of which includes the plurality of first wires formed of the first metal film, the first-conductivity type semiconductor layer formed above each of the plurality of first wires, the plurality of semiconductor layers, and the second-conductivity type semiconductor layer; (c) burying a space between the plurality of first wires and a space between the plurality of first patterns by a first insulating film, and then, exposing each upper surface of the plurality of first patterns; (d) processing the first insulating film and the plurality of first patterns in a stripe shape along the second direction to form a plurality of second patterns each of which includes the first insulating film and the plurality of first patterns; (e) burying a space between the plurality of second patterns by an interlayer insulating film, and then, exposing each upper surface of the plurality of second patterns; and (f) after the step of (a), crystallizing the plurality of semiconductor layers by a thermal treatment to form the plurality of polycrystalline semiconductor layers, and the manufacturing method forming the plurality of diodes each formed of: the first-conductivity type semiconductor layer; the plurality of polycrystalline semiconductor layers; and the second-conductivity type semiconductor layer. |
