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Method for etching semiconductor

A semiconductor and etching technology, used in semiconductor/solid-state device manufacturing, electrical components, circuits, etc., can solve the problems of lack of appropriateness, inability to adjust critical dimensions, and limited final critical dimensions of etching materials.

Inactive Publication Date: 2015-03-18
MACRONIX INT CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] However, a major disadvantage of the traditional method is that the final critical dimension of the material to be etched (such as polysilicon gate or metal line) is completely limited by the critical dimension of the upper mask layer after the lithography process is completed.
In this case, the final CD cannot be adjusted again in the etching process after the lithography process is completed
[0005] This shows that above-mentioned existing semiconductor device manufacturing method obviously still has inconvenience and defect in method and use, and urgently needs to be further improved.
In order to solve the above-mentioned problems, the relevant manufacturers have tried their best to find a solution, but no suitable design has been developed for a long time, and the general method has no suitable method to solve the above-mentioned problems. This is obviously related. The problem that the industry is eager to solve

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  • Method for etching semiconductor
  • Method for etching semiconductor
  • Method for etching semiconductor

Examples

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no. 1 example

[0052] see Figure 2A Shown is a schematic cross-sectional view of a substrate with a multi-layer rigid mask 200 according to an embodiment of the present invention. More specifically, an advanced patterned film (APF) 240 is formed on a base substrate, a dielectric antireflective layer (DARC) 230 is formed on the advanced patterned film (APF) 240, a bottom antireflective layer (BARC) ) 220 is formed on the dielectric anti-reflection layer (DARC) 230 , and a photoresist layer 210 is formed on the bottom anti-reflection layer (BARC) 220 . In the illustrated embodiment, the advanced patterning film (APF) 240 is about 3000 angstroms thick, the dielectric antireflective layer (DARC) 230 is about 500 angstroms thick, the bottom antireflective layer (BARC) 220 is about 600 angstroms thick, and the photoresist layer 210 is about 3000 Angstroms thick. Of course, other dimensions may also be used. In addition, although advanced patterning film (APF) is used here, it should be noted t...

no. 2 example

[0062] A related embodiment of the principles disclosed in the present invention is shown in Figure 3A to Figure 3D In this method, residual C-F molecules from previous processes or other similar processes using C-F gases are used again in the organic-based multilayer hard mask 300 etch process. More specifically, in Figure 3A Among them, the photoresist layer 310, the bottom anti-reflection layer (BARC) 320 and the dielectric anti-reflection layer (DARC) 330 are each produced in a previous process with at least one protruding feature having an initial width D1. After the photoresist layer 310, bottom antireflective layer (BARC) 320, and dielectric antireflective layer (DARC) 330 are etched, this process, or a similar process, can be performed in the reaction chamber 350, such as Figure 3B shown. For example, such a C-F gas based process can be used in etching certain other layers in the device. At some point after the C-F gas-based process, carbon (C) and fluorine (F) r...

no. 3 example

[0066] see Figure 4A to Figure 4E shown, is a display similar to Figure 2A to Figure 2E Another alternative embodiment of an etch-an-organic mask 400 is discussed. As described in previous embodiments, the photoresist layer 410 and the bottom anti-reflective layer (BARC) 420 are first etched to a predetermined size. Then, at some point in the process step, a plasma deposition process or similar process is performed on the wafer again with the C-F molecules. After that, if Figure 4B As shown, the dielectric antireflection layer (DARC) 430 can be etched. However, in this embodiment, the etching process of the dielectric anti-reflective layer (DARC) 430 is not only the residual C-F molecules that are matched with the plasma deposition process, that is, it includes residual C-F molecules that will remain on the inner wall of the process reaction chamber 450 and accumulate on the photoresist layer 40 and The residual C-F molecules on the sidewall of the bottom anti-reflectio...

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Abstract

The invention relates to a method for etching a semiconductor. In the method, after completion of the lithography process of an upper mask layer, the final critical size of a material to be etched is regulated again in a subsequent etching process, wherein the mask layer comprises a hard mask material and has at least one prominent feature and an initial width. The method comprises the following steps of: introducing a first plasma which contains carbon and fluorine into a reaction chamber, wherein carbon and fluorine residues at least deposit on the inner wall of the reaction chamber; removing part of the mask layer by using a second plasma which is matched with the carbon and fluorine, wherein the rest hard mask material is provided with a featured pattern which has a final width different from the initial width at the at least one prominent feature; and transferring the featured pattern to a semiconductor substrate by taking the at least one prominent feature which is provided by the rest hard mask material and has the final width as an etching mask.

Description

technical field [0001] The invention relates to a photoresist layer etching method in a lithography process in a semiconductor substrate manufacturing process, in particular to a semiconductor etching method capable of finely adjusting the critical dimension of a photomask pattern. Background technique [0002] The critical dimensions (CD) and geometries of semiconductor devices and their features have been greatly reduced in size compared to when they were first introduced decades ago. [0003] Therefore, an important part of the semiconductor device manufacturing process is how to accurately pattern the thin film on the device substrate. In conventional techniques, such thin film patterning is performed on a semiconductor wafer using chemical reactions of gases. When patterning this film, it is desirable to minimize variation in width and other critical dimensions. Errors in these critical dimension variations can cause variations in device characteristics or cause unnec...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L21/50H01L21/30H01L21/027
Inventor 陈育钟洪士平吴明宗
Owner MACRONIX INT CO LTD
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