TWI842954B - Composition for chemical mechanical polishing and chemical mechanical polishing method - Google Patents
Composition for chemical mechanical polishing and chemical mechanical polishing method Download PDFInfo
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- TWI842954B TWI842954B TW109132954A TW109132954A TWI842954B TW I842954 B TWI842954 B TW I842954B TW 109132954 A TW109132954 A TW 109132954A TW 109132954 A TW109132954 A TW 109132954A TW I842954 B TWI842954 B TW I842954B
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- Taiwan
- Prior art keywords
- chemical mechanical
- mechanical polishing
- polishing composition
- mass
- polishing
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- 238000005498 polishing Methods 0.000 title claims abstract description 204
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- 238000000034 method Methods 0.000 title claims abstract description 27
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- 239000010937 tungsten Substances 0.000 claims abstract description 48
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Abstract
本發明提供一種化學機械研磨用組成物及化學機械研磨方法,能夠對鎢、鈷等導電體金屬與矽氧化膜等絕緣膜共存的被研磨面進行高速且平坦地研磨、且能夠減少研磨後的表面缺陷。本發明的化學機械研磨用組成物含有:(A)經具有兩個以上胺基的化合物修飾的二氧化矽粒子;以及(B)液態介質。The present invention provides a chemical mechanical polishing composition and a chemical mechanical polishing method, which can polish a polishing surface where a conductive metal such as tungsten or cobalt and an insulating film such as a silicon oxide film coexist at high speed and flatly, and can reduce surface defects after polishing. The chemical mechanical polishing composition of the present invention contains: (A) silicon dioxide particles modified with a compound having two or more amine groups; and (B) a liquid medium.
Description
本發明是有關於一種化學機械研磨用組成物以及化學研磨方法。The present invention relates to a chemical mechanical polishing composition and a chemical polishing method.
形成於半導體裝置內的包含配線及插塞(plug)等的配線層的微細化日益進展。伴隨於此,使用利用化學機械研磨(以下亦稱為「CMP(Chemical Mechanical Polishing)」)使配線層平坦化的方法。此種CMP的最終目的是在研磨後使被研磨面平坦化,獲得無缺陷且無腐蝕的表面。因此,CMP中使用的化學機械研磨用組成物根據材料除去速度、研磨後的表面缺陷品率及研磨後的金屬腐蝕防止等特性進行評價。The miniaturization of wiring layers including wiring and plugs formed in semiconductor devices is progressing. In response to this, a method of flattening the wiring layer using chemical mechanical polishing (hereinafter also referred to as "CMP (Chemical Mechanical Polishing)") is used. The ultimate goal of this CMP is to flatten the polished surface after polishing to obtain a defect-free and corrosion-free surface. Therefore, the chemical mechanical polishing composition used in CMP is evaluated based on characteristics such as material removal rate, surface defect rate after polishing, and metal corrosion prevention after polishing.
近年來,隨著配線層的進一步微細化,作為導電體金屬開始應用鎢(W)或鈷(Co)。因此,要求能夠藉由CMP有效率地除去剩餘積層的鎢或鈷,並且抑制鎢或鈷的腐蝕,形成良好的表面狀態。關於此種鎢或鈷的化學機械研磨,提出了含有各種添加劑的化學機械研磨用組成物(例如,參照專利文獻1及專利文獻2)。 [現有技術文獻] [專利文獻]In recent years, as the wiring layer has become more miniaturized, tungsten (W) or cobalt (Co) has begun to be used as a conductive metal. Therefore, it is required to be able to efficiently remove the remaining tungsten or cobalt by CMP, and to suppress the corrosion of tungsten or cobalt to form a good surface state. Regarding the chemical mechanical polishing of such tungsten or cobalt, chemical mechanical polishing compositions containing various additives have been proposed (for example, refer to Patent Documents 1 and 2). [Prior Art Documents] [Patent Documents]
[專利文獻1]日本專利特表2017-514295號公報 [專利文獻2]日本專利特開2016-030831號公報[Patent document 1] Japanese Patent Publication No. 2017-514295 [Patent document 2] Japanese Patent Publication No. 2016-030831
[發明所欲解決之課題] 隨著含有鎢或鈷等導電體金屬的半導體晶圓的普及,要求能夠對鎢、鈷等導電體金屬與矽氧化膜等絕緣膜共存的被研磨面進行高速且平坦地研磨、並且能夠減少研磨後的表面缺陷的化學機械研磨用組成物及化學機械研磨方法。[Problem to be solved by the invention] With the popularization of semiconductor wafers containing conductive metals such as tungsten and cobalt, there is a demand for a chemical mechanical polishing composition and a chemical mechanical polishing method that can polish a polishing surface where conductive metals such as tungsten and cobalt coexist with an insulating film such as a silicon oxide film at high speed and flatly, and can reduce surface defects after polishing.
特別是,在導電體金屬與絕緣膜共存的被研磨面上,在與絕緣膜的研磨速度相比導電體金屬的研磨速度快的情況下,存在容易發生導電體金屬部分被削成皿狀的、被稱為凹陷(dishing)的表面缺陷的課題,要求解決這一問題。 [解決課題之手段]In particular, on a polished surface where a conductive metal and an insulating film coexist, when the polishing speed of the conductive metal is faster than that of the insulating film, a surface defect called dishing, in which the conductive metal portion is shaved into a dish shape, is likely to occur, and a solution to this problem is required. [Means for Solving the Problem]
本發明的化學機械研磨用組成物的一形態包含: (A)經具有兩個以上胺基的化合物修飾的二氧化矽粒子;以及 (B)液態介質。One form of the chemical mechanical polishing composition of the present invention comprises: (A) silicon dioxide particles modified with a compound having two or more amine groups; and (B) a liquid medium.
在所述化學機械研磨用組成物的一形態中,可為: 化學機械研磨用組成物中的所述(A)成分的ζ電位為+10 mV以上。In one form of the chemical mechanical polishing composition, the zeta potential of the component (A) in the chemical mechanical polishing composition is greater than +10 mV.
在所述化學機械研磨用組成物的任一形態中,可為: 當將化學機械研磨用組成物的總質量設為100質量%時, 所述(A)成分的含量為0.1質量%以上且10質量%以下。In any form of the chemical mechanical polishing composition, it can be: When the total mass of the chemical mechanical polishing composition is set to 100 mass %, the content of the component (A) is greater than 0.1 mass % and less than 10 mass %.
在所述化學機械研磨用組成物的任一形態中, 可更含有酸性化合物。In any form of the chemical mechanical polishing composition, an acidic compound may be further contained.
在所述化學機械研磨用組成物的任一形態中, 可更含有氧化劑。In any form of the chemical mechanical polishing composition, an oxidizing agent may be further contained.
在所述化學機械研磨用組成物的任一形態中,可為: pH為2以上且5以下。In any form of the chemical mechanical polishing composition, the pH may be greater than 2 and less than 5.
本發明的化學機械研磨方法的一形態包括: 使用所述任一形態的化學機械研磨用組成物來研磨半導體基板的步驟。One form of the chemical mechanical polishing method of the present invention includes: The step of polishing a semiconductor substrate using any form of the chemical mechanical polishing composition.
在所述化學機械研磨方法的一形態中,可為: 所述半導體基板包括含有選自由氧化矽及鎢所構成的群組中的至少一種的部位。 [發明的效果]In one form of the chemical mechanical polishing method, the semiconductor substrate may include a portion containing at least one selected from the group consisting of silicon oxide and tungsten. [Effect of the invention]
根據本發明的化學機械研磨用組成物,能夠對鎢、鈷等導電體金屬與矽氧化膜等絕緣膜共存的被研磨面進行高速且平坦地研磨、並且能夠減少研磨後的表面缺陷。According to the chemical mechanical polishing composition of the present invention, a polishing surface on which a conductive metal such as tungsten or cobalt and an insulating film such as a silicon oxide film coexist can be polished at high speed and flatly, and surface defects after polishing can be reduced.
以下,對本發明的適宜的實施方式進行詳細說明。再者,本發明並不限定於下述實施方式,亦包含在不變更本發明的主旨的範圍內實施的各種變形例。The following describes in detail the preferred embodiments of the present invention. The present invention is not limited to the following embodiments, but includes various modifications that can be implemented without changing the gist of the present invention.
在本說明書中,使用「~」記載的數值範圍為包含「~」前後記載的數值作為下限值及上限值的含義。In this specification, a numerical range described using "~" means that the numerical values described before and after the "~" are included as the lower limit and upper limit.
1.化學機械研磨用組成物 本發明一實施方式的化學機械研磨用組成物包含:(A)經具有兩個以上胺基的化合物修飾的二氧化矽粒子(在本說明書中,亦簡稱為「(A)成分」)、以及(B)液態介質(在本說明書中,亦簡稱為「(B)成分」)。以下,對本實施方式的化學機械研磨用組成物中所含的各成分進行詳細說明。1. Chemical mechanical polishing composition The chemical mechanical polishing composition of one embodiment of the present invention comprises: (A) silicon dioxide particles modified with a compound having two or more amino groups (also referred to as "(A) component" in this specification), and (B) a liquid medium (also referred to as "(B) component" in this specification). The following is a detailed description of each component contained in the chemical mechanical polishing composition of this embodiment.
1.1.(A)成分 本實施方式的化學機械研磨用組成物含有(A)經具有兩個以上胺基的化合物修飾的二氧化矽粒子作為研磨粒成分。在化學機械研磨用組成物的pH為1以上6以下的情況下,(A)成分由於具有胺基而帶有比較大的正電荷。因此,可對在pH為1以上6以下的區域,表面電位自0變為負的矽氧化膜等絕緣膜更高速地進行研磨。藉此,能夠對絕緣膜與導電體金屬共存的被研磨面進行高速且平坦地研磨,並且能夠抑制導電體金屬部分中的凹陷的產生。1.1. (A) Component The chemical mechanical polishing composition of this embodiment contains (A) silicon dioxide particles modified with a compound having two or more amine groups as an abrasive component. When the pH of the chemical mechanical polishing composition is between 1 and 6, the (A) component has a relatively large positive charge due to the amine group. Therefore, insulating films such as silicon oxide films whose surface potential changes from 0 to negative in the region where the pH is between 1 and 6 can be polished at a higher speed. In this way, the polishing surface where the insulating film and the conductive metal coexist can be polished at a high speed and flatly, and the generation of depressions in the conductive metal portion can be suppressed.
再者,修飾二氧化矽粒子的「具有兩個以上胺基的化合物」的胺基數量越增加、則(A)成分的ζ電位的絕對值越變大,絕緣膜的研磨速度與導電體金屬的研磨速度之差有變得越小的傾向。其結果,有時絕緣膜與導電體金屬共存的被研磨面的平坦性提高。Furthermore, as the number of amine groups in the "compound having two or more amine groups" that modifies the silica particles increases, the absolute value of the zeta potential of the component (A) increases, and the difference between the polishing rate of the insulating film and the polishing rate of the conductive metal tends to decrease. As a result, the flatness of the polished surface where the insulating film and the conductive metal coexist may be improved.
(A)成分是在其表面經由共價鍵固定有具有兩個以上選自由胺基及其鹽所組成的群組中的至少一種官能基的化合物的二氧化矽粒子,且不包含在其表面物理性或離子性吸附有所述化合物者。The component (A) is a silica particle having a compound having two or more functional groups selected from the group consisting of amine groups and salts thereof fixed to the surface via covalent bonds, and does not include silica particles having the compound physically or ionically adsorbed on the surface.
作為具有兩個以上胺基的化合物,例如可較佳地使用由下述通式(1)表示的化合物。As the compound having two or more amino groups, for example, a compound represented by the following general formula (1) can be preferably used.
SiR1 m (OR2 )n (R3 -NR4 2 )p ・・・・・(1)SiR 1 m (OR 2 ) n (R 3 -NR 4 2 ) p・・・・・(1)
上述式(1)中,R1 、R2 分別獨立地表示1價烴基。作為1價烴基,較佳為碳數1~4的直鏈狀或分支狀的烷基、或碳數6~12的芳基。作為碳數1~4的直鏈狀或分支狀的烷基,例如可列舉:甲基、乙基、正丙基、異丙基、正丁基、2-甲基丙基、1-甲基丙基、第三丁基。作為碳數6~12的芳基,例如可列舉苯基、萘基。In the above formula (1), R 1 and R 2 each independently represent a monovalent hydrocarbon group. The monovalent hydrocarbon group is preferably a linear or branched alkyl group having 1 to 4 carbon atoms, or an aryl group having 6 to 12 carbon atoms. Examples of the linear or branched alkyl group having 1 to 4 carbon atoms include methyl, ethyl, n-propyl, isopropyl, n-butyl, 2-methylpropyl, 1-methylpropyl, and tert-butyl. Examples of the aryl group having 6 to 12 carbon atoms include phenyl and naphthyl.
上述式(1)中,R3 表示2價烴基。作為2價烴基,可列舉碳數1~10的直鏈狀或分支狀的2價烴基。其中,較佳為碳數1~3的烷二基。作為碳數1~10的直鏈狀或分支狀的2價烴基,例如可列舉:亞甲基、伸乙基、伸丙基、伸異丙基、伸丁基、伸異丁基。In the above formula (1), R 3 represents a divalent alkyl group. Examples of the divalent alkyl group include a linear or branched divalent alkyl group having 1 to 10 carbon atoms. Among them, an alkanediyl group having 1 to 3 carbon atoms is preferred. Examples of the linear or branched divalent alkyl group having 1 to 10 carbon atoms include a methylene group, an ethyl group, a propyl group, an isopropyl group, a butyl group, and an isobutyl group.
上述式(1)中,R4 分別獨立地表示可含有雜原子的碳數1~10的1價有機基或氫原子。作為可含有雜原子的碳數1~10的1價有機基,可列舉碳數1~10的直鏈狀或分支狀的1價烴基。作為碳數1~10的直鏈狀或分支狀的1價烴基,例如可列舉甲基、乙基、丙基、異丙基、丁基、異丁基。再者,R4 為烷基、烯基、苯基時,其氫原子的一部分可被胺基、磺基、鹵素原子等取代。In the above formula (1), R4 independently represents a monovalent organic group having 1 to 10 carbon atoms which may contain a heteroatom or a hydrogen atom. Examples of the monovalent organic group having 1 to 10 carbon atoms which may contain a heteroatom include a linear or branched monovalent alkyl group having 1 to 10 carbon atoms. Examples of the linear or branched monovalent alkyl group having 1 to 10 carbon atoms include a methyl group, an ethyl group, a propyl group, an isopropyl group, a butyl group, and an isobutyl group. Furthermore, when R4 is an alkyl group, an alkenyl group, or a phenyl group, a part of the hydrogen atoms thereof may be substituted by an amino group, a sulfonic group, a halogen atom, or the like.
所述式(1)中,m是0~2的整數,n是0~2的整數,p是2~4的整數,且m+n+p=4。In the formula (1), m is an integer from 0 to 2, n is an integer from 0 to 2, p is an integer from 2 to 4, and m+n+p=4.
作為具有兩個以上胺基的化合物的具體例,可列舉:(胺基乙基)胺基丙基三甲氧基矽烷、N-(3-三甲氧基矽烷基丙基)乙二胺、N-(3-三乙氧基矽烷基丙基)乙二胺、N-(3-三丙氧基矽烷基丙基)乙二胺、N-[2-[3-(三乙氧基矽烷基)丙基胺基]乙基]乙二胺、N-[2-[3-(三丙氧基矽烷基)丙基胺基]乙基]乙二胺、N-[2-[3-(三異丙氧基矽烷基)丙基胺基]乙基]乙二胺、N-[2-[3-(三甲氧基矽烷基)丙基胺基]乙基]乙二胺等。Specific examples of the compound having two or more amino groups include (aminoethyl)aminopropyltrimethoxysilane, N-(3-trimethoxysilylpropyl)ethylenediamine, N-(3-triethoxysilylpropyl)ethylenediamine, N-(3-tripropoxysilylpropyl)ethylenediamine, N-[2-[3-(triethoxysilyl)propylamino]ethyl]ethylenediamine, N-[2-[3-(tripropoxysilyl)propylamino]ethyl]ethylenediamine, N-[2-[3-(triisopropoxysilyl)propylamino]ethyl]ethylenediamine, and N-[2-[3-(trimethoxysilyl)propylamino]ethyl]ethylenediamine.
本實施方式中使用的(A)成分例如可如以下般製造。 首先,準備二氧化矽粒子。作為二氧化矽粒子,例如可列舉氣相二氧化矽、膠體二氧化矽等,但自減少劃痕等研磨缺陷的觀點出發,較佳為膠體二氧化矽。膠體二氧化矽可使用例如藉由日本專利特開2003-109921號公報等中記載的方法製造者。藉由用具有兩個以上胺基的化合物修飾此種二氧化矽粒子的表面,可製造在本實施方式中可使用的(A)成分。以下例示用具有兩個以上胺基的化合物修飾二氧化矽粒子表面的方法,但本發明不受該具體例的任何限定。The component (A) used in the present embodiment can be produced, for example, as follows. First, prepare silica particles. As silica particles, for example, fumed silica, colloidal silica, etc. can be listed, but from the perspective of reducing polishing defects such as scratches, colloidal silica is preferred. Colloidal silica can be produced, for example, by the method described in Japanese Patent Publication No. 2003-109921. By modifying the surface of such silica particles with a compound having two or more amine groups, the component (A) that can be used in the present embodiment can be produced. The following is an example of a method for modifying the surface of silica particles with a compound having two or more amine groups, but the present invention is not limited to this specific example.
作為二氧化矽粒子的表面修飾,可應用日本專利特開2005-162533號公報或日本專利特開2010-269985號公報中記載的方法。例如,藉由將二氧化矽粒子與具有兩個以上胺基的矽烷偶合劑(例如,(胺基乙基)胺基丙基三甲氧基矽烷)混合、並充分攪拌,可使所述具有兩個以上胺基的矽烷偶合劑共價鍵結於所述二氧化矽粒子的表面。藉由進一步加熱水解,可獲得兩個以上胺基經由共價鍵而固定的二氧化矽粒子。As the surface modification of silica particles, the method described in Japanese Patent Publication No. 2005-162533 or Japanese Patent Publication No. 2010-269985 can be applied. For example, by mixing silica particles with a silane coupling agent having two or more amine groups (e.g., (aminoethyl)aminopropyltrimethoxysilane) and stirring them sufficiently, the silane coupling agent having two or more amine groups can be covalently bonded to the surface of the silica particles. By further heating and hydrolyzing, silica particles with two or more amine groups fixed via covalent bonds can be obtained.
(A)成分的平均粒徑的下限值較佳為15 nm,更佳為30 nm。(A)成分的平均粒徑的上限值較佳為100 nm,更佳為70 nm。若(A)成分的平均粒徑在所述範圍內,則存在能夠抑制研磨缺陷的產生、同時對鎢、鈷等導電體金屬與矽氧化膜等絕緣膜共存的被研磨面以實用的研磨速度進行研磨的情況。(A)成分的平均粒徑可藉由利用動態光散射法的粒徑測定裝置測定所製造的化學機械研磨用組成物來獲得。作為基於動態光散射法的粒徑測定裝置,可列舉貝克曼-庫爾特(beckman-coulter)公司製造的納米粒子分析儀「德爾薩納米(DelsaNano)S」、馬爾文(Malvern)公司製造的「傑塔思傑納米(Zetasizer nano)zs」等。再者,使用動態光散射法測定的平均粒徑表示多個一次粒子凝聚而形成的二次粒子的平均粒徑。The lower limit of the average particle size of the component (A) is preferably 15 nm, more preferably 30 nm. The upper limit of the average particle size of the component (A) is preferably 100 nm, more preferably 70 nm. If the average particle size of the component (A) is within the above range, it is possible to suppress the occurrence of polishing defects and polish the polished surface where a conductive metal such as tungsten and cobalt and an insulating film such as a silicon oxide film coexist at a practical polishing rate. The average particle size of the component (A) can be obtained by measuring the manufactured chemical mechanical polishing composition using a particle size measuring device using a dynamic light scattering method. Examples of particle size measurement devices based on the dynamic light scattering method include the nanoparticle analyzer "DelsaNano S" manufactured by Beckman-Coulter and the "Zetasizer Nano ZS" manufactured by Malvern. The average particle size measured using the dynamic light scattering method represents the average particle size of secondary particles formed by the aggregation of multiple primary particles.
當化學機械研磨用組成物的pH為1以上且6以下時,(A)成分的ζ電位(zeta potential)在化學機械研磨用組成物中為正電位,其正電位的下限值較佳為+10 mV,更佳為+15 mV。另外,其正電位的上限值較佳為+40 mV,更佳為+35 mV。若(A)成分的ζ電位在上述範圍內,則有時可藉由粒子間的靜電排斥力有效地防止粒子彼此的凝聚,同時在化學機械研磨時可以高速研磨自0開始帶負電荷的矽氧化膜等絕緣膜。再者,作為ζ電位測定裝置,可列舉大塚電子股份有限公司製造的「ELSZ-1」、馬爾文(Malvern)公司製造的「傑塔思傑納米(Zetasizer nano)zs」等。(A)成分的ζ電位可藉由增減所述具有兩個以上胺基的矽烷偶合劑的添加量來適當調整。When the pH of the chemical mechanical polishing composition is 1 or more and 6 or less, the zeta potential of the component (A) is positive in the chemical mechanical polishing composition, and the lower limit of the positive potential is preferably +10 mV, more preferably +15 mV. In addition, the upper limit of the positive potential is preferably +40 mV, more preferably +35 mV. If the zeta potential of the component (A) is within the above range, the electrostatic repulsion between the particles can sometimes effectively prevent the aggregation of the particles, and at the same time, an insulating film such as a silicon oxide film that is negatively charged from 0 can be polished at a high speed during chemical mechanical polishing. In addition, as a zeta potential measuring device, there can be mentioned "ELSZ-1" manufactured by Otsuka Electronics Co., Ltd., "Zetasizer nano zs" manufactured by Malvern, etc. The zeta potential of the component (A) can be appropriately adjusted by increasing or decreasing the amount of the silane coupling agent having two or more amino groups added.
將化學機械研磨用組成物的總質量設為100質量%時,(A)成分的含量的下限值較佳為0.1質量%,更佳為0.5質量%,特佳為1質量%。將化學機械研磨用組成物的總質量設為100質量%時,(A)成分的含量的上限值較佳為10質量%,更佳為8質量%,特佳為5質量%。若(A)成分的含量在所述範圍內,則存在能夠一邊抑制研磨缺陷的產生,一邊以實用的研磨速度對鎢或鈷等導電體金屬與矽氧化膜等絕緣膜共存的被研磨面進行研磨的情況。When the total mass of the chemical mechanical polishing composition is set to 100 mass%, the lower limit of the content of component (A) is preferably 0.1 mass%, more preferably 0.5 mass%, and particularly preferably 1 mass%. When the total mass of the chemical mechanical polishing composition is set to 100 mass%, the upper limit of the content of component (A) is preferably 10 mass%, more preferably 8 mass%, and particularly preferably 5 mass%. When the content of component (A) is within the above range, it is possible to polish a surface to be polished where a conductive metal such as tungsten or cobalt and an insulating film such as a silicon oxide film coexist at a practical polishing rate while suppressing the occurrence of polishing defects.
1.2.(B)液態介質 本實施方式的化學機械研磨用組成物含有(B)液態介質。作為(B)成分,可列舉水、水及醇的混合介質、含有水及具有與水的相容性的有機溶劑的混合介質等。該些中,較佳為使用水、水與醇的混合介質,更佳為使用水。作為水,並無特別限制,但較佳為純水。水只要作為化學機械研磨用組成物的構成材料的剩餘部分來調配即可,對水的含量沒有特別限制。1.2. (B) Liquid medium The chemical mechanical polishing composition of this embodiment contains (B) liquid medium. As the (B) component, water, a mixed medium of water and alcohol, a mixed medium containing water and an organic solvent having compatibility with water, etc. can be listed. Among these, it is preferred to use water or a mixed medium of water and alcohol, and it is more preferred to use water. There is no particular limitation on the water, but pure water is preferred. Water can be prepared as the remainder of the constituent materials of the chemical mechanical polishing composition, and there is no particular limitation on the water content.
1.3.其他添加劑 本實施方式的化學機械研磨用組成物根據需要可更含有氧化劑、酸性化合物、界面活性劑、水溶性高分子、防蝕劑、pH調整劑等添加劑。以下對各添加劑進行說明。1.3. Other additives The chemical mechanical polishing composition of this embodiment may contain additives such as oxidizing agents, acidic compounds, surfactants, water-soluble polymers, anti-corrosion agents, pH adjusters, etc. as needed. Each additive is described below.
<氧化劑> 本實施方式的化學機械研磨用組成物亦可含有氧化劑。藉由含有氧化劑,將鎢或鈷等導電體金屬氧化來促進與研磨液成分的錯合反應,從而可在被研磨面上製成脆弱的改質層,因此存在研磨速度提高的情況。<Oxidant> The chemical mechanical polishing composition of this embodiment may also contain an oxidant. By containing an oxidant, conductive metals such as tungsten or cobalt are oxidized to promote complex reactions with polishing liquid components, thereby forming a fragile modified layer on the polished surface, thereby increasing the polishing speed.
作為氧化劑,例如可列舉:過硫酸銨、過硫酸鉀、過氧化氫、硝酸鐵、硝酸鈰銨、次氯酸鉀、臭氧、過碘酸鉀、過乙酸等。該些氧化劑中,考慮到氧化力及處理容易度,較佳為過硫酸銨、過硫酸鉀、過氧化氫,更佳為過氧化氫。該些氧化劑可單獨使用一種,亦可組合兩種以上使用。As the oxidizing agent, for example, ammonium persulfate, potassium persulfate, hydrogen peroxide, iron nitrate, ammonium nitrate, potassium hypochlorite, ozone, potassium periodate, peracetic acid, etc. Among these oxidizing agents, ammonium persulfate, potassium persulfate, and hydrogen peroxide are preferred, and hydrogen peroxide is more preferred in view of oxidizing power and ease of handling. These oxidizing agents may be used alone or in combination of two or more.
在本實施方式的化學機械研磨用組成物含有氧化劑的情況下,以化學機械研磨用組成物的總質量為100質量%時,氧化劑的含量較佳為0.1質量%~5質量%,更佳為0.3質量%~4質量%,特佳為0.5質量%~3質量%。再者,氧化劑在化學機械研磨用組成物中容易分解,因此理想的是在即將進行CMP研磨步驟之前添加。When the chemical mechanical polishing composition of the present embodiment contains an oxidizing agent, the content of the oxidizing agent is preferably 0.1 mass % to 5 mass %, more preferably 0.3 mass % to 4 mass %, and particularly preferably 0.5 mass % to 3 mass %, based on the total mass of the chemical mechanical polishing composition as 100 mass %. Furthermore, the oxidizing agent is easily decomposed in the chemical mechanical polishing composition, and therefore, it is ideally added just before the CMP polishing step.
<酸性化合物> 本實施方式的化學機械研磨用組成物亦可含有酸性化合物。藉由含有酸性化合物,存在酸性化合物配位於被研磨面,研磨速度提高,同時可抑制研磨中的金屬鹽的析出的情況。另外,藉由酸性化合物配位於被研磨面,存在可減少被研磨面的由蝕刻及腐蝕引起的損傷的情況。<Acidic compound> The chemical mechanical polishing composition of this embodiment may also contain an acidic compound. By containing the acidic compound, the acidic compound is coordinated to the polished surface, the polishing speed is increased, and the precipitation of metal salts during polishing can be suppressed. In addition, by the acidic compound being coordinated to the polished surface, there is a situation where the damage caused by etching and corrosion of the polished surface can be reduced.
作為此種酸性化合物,可列舉有機酸及無機酸。作為有機酸,例如可列舉:丙二酸、檸檬酸、蘋果酸、酒石酸、草酸、乳酸、亞胺基二乙酸等飽和羧酸;丙烯酸、甲基丙烯酸、巴豆酸、2-丁烯酸、2-甲基-3-丁烯酸、2-己烯酸、3-甲基-2-己烯酸等不飽和單羧酸;馬來酸、富馬酸、檸康酸、中康酸、2-戊烯二酸、衣康酸、烯丙基丙二酸、亞異丙基琥珀酸、2,4-己二烯二酸、乙炔二羧酸等不飽和二羧酸;1,2,4-苯三甲酸(trimellitic acid)等芳香族羧酸、及該些的鹽。作為無機酸,例如可列舉磷酸、硫酸、鹽酸、硝酸、以及該些的鹽。該些酸性化合物可單獨使用一種,亦可兩種以上組合使用。Examples of such acidic compounds include organic acids and inorganic acids. Examples of organic acids include saturated carboxylic acids such as malonic acid, citric acid, apple acid, tartaric acid, oxalic acid, lactic acid, and iminodiacetic acid; unsaturated monocarboxylic acids such as acrylic acid, methacrylic acid, crotonic acid, 2-butenoic acid, 2-methyl-3-butenoic acid, 2-hexenoic acid, and 3-methyl-2-hexenoic acid; unsaturated dicarboxylic acids such as maleic acid, fumaric acid, citric acid, mesaconic acid, 2-pentaconedioic acid, itaconic acid, allylmalonic acid, isopropylidene succinic acid, 2,4-hexadienedioic acid, and acetylenedicarboxylic acid; aromatic carboxylic acids such as 1,2,4-tricarboxylic acid, and salts thereof. Examples of the inorganic acid include phosphoric acid, sulfuric acid, hydrochloric acid, nitric acid, and salts thereof. These acidic compounds may be used alone or in combination of two or more.
在本實施方式的化學機械研磨用組成物含有酸性化合物的情況下,以化學機械研磨用組成物的總質量為100質量%時,酸性化合物的含量較佳為0.001質量%~5質量%,更佳為0.005質量%~1質量%,特佳為0.01質量%~0.5質量%。When the chemical mechanical polishing composition of this embodiment contains an acidic compound, the content of the acidic compound is preferably 0.001 mass % to 5 mass %, more preferably 0.005 mass % to 1 mass %, and particularly preferably 0.01 mass % to 0.5 mass %, based on the total mass of the chemical mechanical polishing composition as 100 mass %.
<界面活性劑> 本實施方式的化學機械研磨用組成物亦可含有界面活性劑。藉由含有界面活性劑,存在可賦予化學機械研磨用組成物適度的黏性的情況。化學機械研磨用組成物的黏度較佳為調整為在25℃下為0.5 mPa·s以上且小於10 mPa·s。<Surfactant> The chemical mechanical polishing composition of this embodiment may also contain a surfactant. By containing a surfactant, there is a case where the chemical mechanical polishing composition can be given a moderate viscosity. The viscosity of the chemical mechanical polishing composition is preferably adjusted to be 0.5 mPa·s or more and less than 10 mPa·s at 25°C.
作為界面活性劑,並無特別限制,可列舉陰離子性界面活性劑、陽離子性界面活性劑、非離子性界面活性劑等。The surfactant is not particularly limited, and examples thereof include anionic surfactants, cationic surfactants, and nonionic surfactants.
作為陰離子性界面活性劑,例如可列舉:脂肪酸皂、烷基醚羧酸鹽等羧酸鹽;烷基苯磺酸鹽、烷基萘磺酸鹽、α-烯烴磺酸鹽等磺酸鹽;高級醇硫酸酯鹽、烷基醚硫酸鹽、聚氧乙烯烷基苯基醚硫酸鹽等硫酸鹽;全氟烷基化合物等含氟系界面活性劑等。作為陽離子性界面活性劑,例如可列舉脂肪族胺鹽、脂肪族銨鹽等。作為非離子性界面活性劑,例如可列舉:乙炔二醇、乙炔二醇氧化乙烯加成物、乙炔醇等具有三重鍵的非離子性界面活性劑;聚乙二醇型界面活性劑等。該些界面活性劑可單獨使用一種,亦可組合使用兩種以上。Examples of anionic surfactants include: carboxylates such as fatty acid soaps and alkyl ether carboxylates; sulfonates such as alkylbenzene sulfonates, alkylnaphthalene sulfonates, and α-olefin sulfonates; sulfates such as higher alcohol sulfates, alkyl ether sulfates, and polyoxyethylene alkylphenyl ether sulfates; fluorine-containing surfactants such as perfluoroalkyl compounds, etc. Examples of cationic surfactants include: aliphatic amine salts, aliphatic ammonium salts, etc. Examples of nonionic surfactants include: nonionic surfactants having triple bonds such as acetylene glycol, acetylene glycol ethylene oxide adducts, and acetylene alcohol; polyethylene glycol-type surfactants, etc. These surfactants may be used alone or in combination of two or more.
在本實施方式的化學機械研磨用組成物含有界面活性劑的情況下,以化學機械研磨用組成物的總質量為100質量%時,界面活性劑的含量較佳為0.001質量%~5質量%,更佳為0.003質量%~3質量%,特佳為0.005質量%~1質量%。When the chemical mechanical polishing composition of this embodiment contains a surfactant, the content of the surfactant is preferably 0.001 mass % to 5 mass %, more preferably 0.003 mass % to 3 mass %, and particularly preferably 0.005 mass % to 1 mass %, based on the total mass of the chemical mechanical polishing composition as 100 mass %.
<水溶性高分子> 本實施方式的化學機械研磨用組成物亦可含有水溶性高分子。水溶性高分子有吸附在被研磨面的表面上而降低研磨摩擦的效果。藉由此種效果,存在可減少被研磨面上的研磨缺陷發生的情況。<Water-soluble polymer> The chemical mechanical polishing composition of this embodiment may also contain a water-soluble polymer. The water-soluble polymer has the effect of adsorbing on the surface of the polished surface to reduce the polishing friction. This effect can reduce the occurrence of polishing defects on the polished surface.
作為水溶性高分子,可列舉聚乙烯亞胺、聚(甲基)丙烯胺、聚(甲基)丙烯醯胺、聚(甲基)丙烯酸、聚乙烯醇、聚乙烯吡咯啶酮、羥乙基纖維素、羧甲基纖維素、(甲基)丙烯酸與馬來酸的共聚物等。Examples of the water-soluble polymer include polyethyleneimine, poly(meth)acrylamine, poly(meth)acrylamide, poly(meth)acrylic acid, polyvinyl alcohol, polyvinyl pyrrolidone, hydroxyethyl cellulose, carboxymethyl cellulose, and copolymers of (meth)acrylic acid and maleic acid.
水溶性高分子的重量平均分子量(Mw)較佳為1,000~1,000,000,更佳為3,000~800,000。若水溶性高分子的重量平均分子量為所述範圍內,則存在容易吸附於配線材料等的被研磨面而可進一步減少研磨摩擦的情況。其結果,存在可更有效地減少被研磨面的研磨缺陷產生的情況。再者,所謂本說明書中的「重量平均分子量(Mw)」,是指藉由凝膠滲透層析法(Gel Permeation Chromatography,GPC)而測定的聚乙二醇換算的重量平均分子量。The weight average molecular weight (Mw) of the water-soluble polymer is preferably 1,000 to 1,000,000, and more preferably 3,000 to 800,000. If the weight average molecular weight of the water-soluble polymer is within the above range, it is easy to adsorb on the polished surface of the wiring material, etc., and the polishing friction can be further reduced. As a result, the generation of polishing defects on the polished surface can be more effectively reduced. Furthermore, the so-called "weight average molecular weight (Mw)" in this specification refers to the weight average molecular weight converted to polyethylene glycol measured by gel permeation chromatography (GPC).
在本實施方式的化學機械研磨用組成物含有水溶性高分子的情況下,以化學機械研磨用組成物的總質量為100質量%時,水溶性高分子的含量較佳為0.01質量%~1質量%,更佳為0.03質量%~0.5質量%。When the chemical mechanical polishing composition of this embodiment contains a water-soluble polymer, the content of the water-soluble polymer is preferably 0.01 mass % to 1 mass %, more preferably 0.03 mass % to 0.5 mass %, based on the total mass of the chemical mechanical polishing composition as 100 mass %.
再者,水溶性高分子的含量亦依存於水溶性高分子的重量平均分子量(Mw),但較佳為調整成化學機械研磨用組成物在25℃下的黏度為0.5 mPa·s以上且小於10 mPa·s。化學機械研磨用組成物在25℃下的黏度為0.5 mPa·s以上且小於10 mPa·s時,容易以高速對配線材料等進行研磨,且黏度適當,因此可穩定地向研磨布上供給化學機械研磨用組成物。Furthermore, the content of the water-soluble polymer also depends on the weight average molecular weight (Mw) of the water-soluble polymer, but it is preferably adjusted so that the viscosity of the chemical mechanical polishing composition at 25°C is 0.5 mPa·s or more and less than 10 mPa·s. When the viscosity of the chemical mechanical polishing composition at 25°C is 0.5 mPa·s or more and less than 10 mPa·s, it is easy to polish wiring materials at high speed, and the viscosity is appropriate, so the chemical mechanical polishing composition can be stably supplied to the polishing cloth.
<防蝕劑> 本實施方式的化學機械研磨用組成物亦可含有防蝕劑。作為防蝕劑,例如可列舉苯並三唑及其衍生物。此處,苯並三唑衍生物是指將苯並三唑具有的一個或兩個以上氫原子例如用羧基、甲基、胺基、羥基等取代而成的物質。作為苯並三唑衍生物的具體例子,可列舉4-羧基苯並三唑、7-羧基苯並三唑、苯並三唑丁酯、1-羥甲基苯並三唑、1-羥基苯並三唑及該些的鹽等。<Anti-corrosion agent> The chemical mechanical polishing composition of this embodiment may also contain an anti-corrosion agent. Examples of the anti-corrosion agent include benzotriazole and its derivatives. Here, the benzotriazole derivative refers to a substance in which one or more hydrogen atoms of benzotriazole are replaced by, for example, a carboxyl group, a methyl group, an amino group, a hydroxyl group, etc. Specific examples of benzotriazole derivatives include 4-carboxybenzotriazole, 7-carboxybenzotriazole, benzotriazole butyl ester, 1-hydroxymethylbenzotriazole, 1-hydroxybenzotriazole, and salts thereof.
在本實施方式的化學機械研磨用組成物含有防蝕劑的情況下,以化學機械研磨用組成物的總質量為100質量%時,防蝕劑的含量較佳為1質量%以下,更佳為0.001質量%~0.1質量%。When the chemical mechanical polishing composition of the present embodiment contains an anti-corrosion agent, the content of the anti-corrosion agent is preferably 1 mass % or less, and more preferably 0.001 mass % to 0.1 mass % when the total mass of the chemical mechanical polishing composition is 100 mass %.
<pH調整劑> 本實施方式的化學機械研磨用組成物根據需要可更含有pH調整劑。作為pH調整劑,可列舉氫氧化鉀、乙二胺、單乙醇胺、氫氧化四甲基銨(Tetramethyl ammonium hydroxide,TMAH)、氫氧化四乙基銨(Tetraethyl ammonium hydroxide,TEAH)、氨等鹼,可使用該些中的一種以上。<pH adjuster> The chemical mechanical polishing composition of this embodiment may further contain a pH adjuster as needed. Examples of pH adjusters include potassium hydroxide, ethylenediamine, monoethanolamine, tetramethylammonium hydroxide (TMAH), tetraethylammonium hydroxide (TEAH), ammonia and other bases, and one or more of these may be used.
1.5.pH 本實施方式的化學機械研磨用組成物的pH並無特別限制,較佳為2以上且5以下,更佳為2以上且4以下。若pH在所述範圍內,則化學機械研磨用組成物中的(A)成分的分散性提高,從而化學機械研磨用組成物的貯藏穩定性變得良好,因此較佳。1.5. pH The pH of the chemical mechanical polishing composition of the present embodiment is not particularly limited, but is preferably 2 or more and 5 or less, and more preferably 2 or more and 4 or less. If the pH is within the above range, the dispersibility of the component (A) in the chemical mechanical polishing composition is improved, thereby improving the storage stability of the chemical mechanical polishing composition, which is preferred.
再者,本實施方式的化學機械研磨用組成物的pH例如可藉由適當增減所述酸性化合物、所述pH調整劑等的含量來調整。Furthermore, the pH of the chemical mechanical polishing composition of this embodiment can be adjusted by, for example, appropriately increasing or decreasing the content of the acidic compound, the pH adjuster, etc.
在本發明中,pH是指氫離子指數,其值可於25℃、1氣壓的條件下使用市售的pH計(例如堀場製作所股份有限公司製造、桌上型pH計)進行測定。In the present invention, pH refers to the hydrogen ion index, and its value can be measured under the conditions of 25° C. and 1 atmosphere using a commercially available pH meter (e.g., a desktop pH meter manufactured by Horiba, Ltd.).
1.6.用途 本實施方式的化學機械研磨用組成物適合作為用於對構成半導體裝置的具有多種材料的半導體基板進行化學機械研磨的研磨材料。例如,所述半導體基板除了鎢或鈷等導電體金屬以外,亦可包含矽氧化膜、矽氮化膜、非晶矽等絕緣膜材料、鈦、氮化鈦、氮化鉭等阻擋金屬材料。1.6. Application The chemical mechanical polishing composition of the present embodiment is suitable as a polishing material for chemical mechanical polishing of a semiconductor substrate having multiple materials constituting a semiconductor device. For example, the semiconductor substrate may include insulating film materials such as silicon oxide film, silicon nitride film, amorphous silicon, and barrier metal materials such as titanium, titanium nitride, and tantalum nitride in addition to conductive metals such as tungsten or cobalt.
本實施方式的化學機械研磨用組成物的特別適合的研磨對像是設置有包含鎢的配線層的半導體基板等被處理體。具體而言,可列舉:包括具有通孔的矽氧化膜及經由阻擋金屬膜設置在所述矽氧化膜上的鎢膜的被處理體。藉由使用本實施方式的化學機械研磨用組成物,不僅可高速且平坦地研磨鎢膜,而且對於鎢膜與矽氧化膜等絕緣膜共存的被研磨面,亦可以在抑制研磨缺陷產生的同時進行高速且平坦的研磨。The chemical mechanical polishing composition of this embodiment is particularly suitable for polishing a workpiece such as a semiconductor substrate provided with a wiring layer containing tungsten. Specifically, the workpiece includes a silicon oxide film having a through hole and a tungsten film provided on the silicon oxide film via a barrier metal film. By using the chemical mechanical polishing composition of this embodiment, not only can the tungsten film be polished at high speed and flatly, but also for the polishing surface where the tungsten film and an insulating film such as a silicon oxide film coexist, it is possible to perform high-speed and flat polishing while suppressing the occurrence of polishing defects.
1.7.化學機械研磨用組成物的製備方法 本實施方式的化學機械研磨用組成物可藉由使所述各成分溶解或分散在水等液態介質中來製備。溶解或分散的方法並無特別限制,只要能均勻地溶解或分散,則可應用任何方法。另外,對所述各成分的混合順序和混合方法亦沒有特別限制。1.7. Preparation method of chemical mechanical polishing composition The chemical mechanical polishing composition of this embodiment can be prepared by dissolving or dispersing the above-mentioned components in a liquid medium such as water. There is no particular limitation on the method of dissolving or dispersing, and any method can be applied as long as it can be dissolved or dispersed uniformly. In addition, there is no particular limitation on the mixing order and mixing method of the above-mentioned components.
另外,本實施方式的化學機械研磨用組成物亦可調製成濃縮型的原液,使用時用水等液態介質稀釋使用。In addition, the chemical mechanical polishing composition of this embodiment can also be prepared into a concentrated stock solution, which can be diluted with a liquid medium such as water before use.
2.化學機械研磨方法 根據本發明的一實施方式的研磨方法包括使用所述的化學機械研磨用組成物來研磨半導體基板的步驟。以下,使用圖式詳細說明本實施方式的化學機械研磨方法的一個具體例子。2. Chemical Mechanical Polishing Method The polishing method according to one embodiment of the present invention includes the step of polishing a semiconductor substrate using the chemical mechanical polishing composition. A specific example of the chemical mechanical polishing method of this embodiment is described in detail below using a diagram.
2.1.被處理體 圖1是示意性地表示適合使用本實施方式的化學機械研磨方法的被處理體的剖面圖。被處理體100藉由經過以下步驟(1)~步驟(4)而形成。2.1. Object to be processed Figure 1 is a schematic cross-sectional view of an object to be processed that is suitable for the chemical mechanical polishing method of the present embodiment. The object to be processed 100 is formed by the following steps (1) to (4).
(1)首先,如圖1所示,準備基體10。基體10亦可由例如矽基板及形成在其上的矽氧化膜構成。進而,可在基體10上形成電晶體(未示出)等功能元件。繼而,在基體10上,使用熱氧化法形成作為絕緣膜的矽氧化膜12。(1) First, as shown in FIG. 1 , a
(2)繼而,將矽氧化膜12圖案化。以獲得的圖案為遮罩,藉由光微影術在矽氧化膜12上形成通孔14。(2) Next, the
(3)繼而,應用濺射等在矽氧化膜12的表面及通孔14的內壁面形成阻擋金屬膜16。鎢與矽的電接觸不太好,因此藉由介隔存在阻擋金屬膜而實現了良好的電接觸。作為阻擋金屬膜16,可列舉鈦及/或氮化鈦。(3) Then, a
(4)繼而,應用化學氣相沈積(chemical vapor deposition,CVD)法堆積鎢膜18。(4) Next, a tungsten film was deposited using chemical vapor deposition (CVD)18.
藉由以上的步驟,形成被處理體100。Through the above steps, the object to be processed 100 is formed.
2.2.化學機械研磨方法
2.2.1.第一研磨步驟
圖2是示意性地表示第一研磨步驟結束時的被處理體的剖面圖。在第一研磨步驟中,如圖2所示,使用所述化學機械研磨用組成物研磨鎢膜18直到阻擋金屬膜16露出。2.2. Chemical mechanical polishing method
2.2.1. First polishing step
Figure 2 is a schematic cross-sectional view of the treated body at the end of the first polishing step. In the first polishing step, as shown in Figure 2, the chemical mechanical polishing composition is used to polish the
2.2.2.第二研磨步驟
圖3是示意性地表示第二研磨步驟結束時的被處理體的剖面圖。在第二研磨步驟中,如圖3所示,使用所述的化學機械研磨用組成物研磨矽氧化膜12、阻擋金屬膜16及鎢膜18。藉由經過第二研磨步驟,可製造被研磨面的平坦性優異的下一代型的半導體裝置200。2.2.2. Second polishing step
Figure 3 is a schematic cross-sectional view of the object to be processed at the end of the second polishing step. In the second polishing step, as shown in Figure 3, the
再者,如上所述,所述的化學機械研磨用組成物適合作為用於對構成半導體裝置的具有多種材料的半導體基板進行化學機械研磨的研磨材料。因此,在本實施方式的化學機械研磨方法的第一研磨步驟及第二研磨步驟中,可使用相同組成的化學機械研磨用組成物,因此生產線的生產量(throughput)提高。Furthermore, as described above, the chemical mechanical polishing composition is suitable as a polishing material for chemical mechanical polishing of a semiconductor substrate having multiple materials constituting a semiconductor device. Therefore, in the first polishing step and the second polishing step of the chemical mechanical polishing method of this embodiment, the chemical mechanical polishing composition of the same composition can be used, thereby improving the throughput of the production line.
2.3.化學機械研磨裝置
在所述第一研磨步驟及所述第二研磨步驟中,例如可使用圖4所示的研磨裝置300。圖4是示意性地表示研磨裝置300的立體圖。所述第一研磨步驟及所述第二研磨步驟藉由如下方式來進行:自漿料供給噴嘴42供給漿料(化學機械研磨用組成物)44,且一邊使貼附有研磨布46的轉盤(turntable)48旋轉,一邊使保持半導體基板50的載體頭52抵接。再者,在圖4中,亦一併示出了水供給噴嘴54及修整器56。2.3. Chemical mechanical polishing device
In the first polishing step and the second polishing step, for example, a
載體頭52的研磨載荷可於10 hPa〜980 hPa的範圍內選擇,較佳為30 hPa〜490 hPa。另外,轉盤48及載體頭52的轉速可於10 rpm~400 rpm的範圍內適宜選擇,較佳為30 rpm~150 rpm。自漿料供給噴嘴42供給的漿料(化學機械研磨用組成物)44的流量可於10 mL/分鐘~1,000 mL/分鐘的範圍內選擇,較佳為50 mL/分鐘~400 mL/分鐘。The grinding load of the
作為市售的研磨裝置,例如可列舉荏原製作所公司製造的型號「EPO-112」、「EPO-222」;萊瑪特(Lapmaster)SFT公司製造的型號「LGP-510」、「LGP-552」;應用材料(Applied Material)公司製造的型號「米拉(Mirra)」、「瑞福興(Reflexion)」;G&P科技(G&P TECHNOLOGY)公司製造的型號「POLI-400L」;AMAT公司製造的型號「瑞福興(Reflexion)LK」等。Examples of commercially available polishing devices include the models "EPO-112" and "EPO-222" manufactured by Ebara Manufacturing Co., Ltd.; the models "LGP-510" and "LGP-552" manufactured by Lapmaster SFT; the models "Mirra" and "Reflexion" manufactured by Applied Material; the model "POLI-400L" manufactured by G&P TECHNOLOGY; and the model "Reflexion LK" manufactured by AMAT.
3.實施例 以下,藉由實施例對本發明加以說明,但本發明並不受該些實施例的任何限定。再者,本實施例中的「份」及「%」只要無特別說明,則為質量基準。3. Examples The present invention is described below by way of examples, but the present invention is not limited to these examples. In addition, the "parts" and "%" in the present examples are based on mass unless otherwise specified.
3.1.二氧化矽粒子水分散體的製備 3.1.1.水分散體A的製備 將四甲氧基矽烷1522.2 g與甲醇413.0 g的混合液保持在液溫35℃的同時花費55分鐘滴加到純水787.9 g、26%氨水786.0 g、甲醇12924 g的混合液中,獲得水解的二氧化矽溶膠分散液。將該溶膠在常壓下加熱濃縮至2900 ml。將該濃縮液進一步在常壓下加熱蒸餾,一邊保持容量固定一邊滴加純水,在確認到塔頂溫度達到100℃且pH成為8以下的時刻結束純水的滴加,獲得水分散體A。3.1. Preparation of aqueous dispersion of silica particles 3.1.1. Preparation of aqueous dispersion A A mixture of 1522.2 g of tetramethoxysilane and 413.0 g of methanol was added dropwise to a mixture of 787.9 g of pure water, 786.0 g of 26% ammonia water, and 12924 g of methanol while maintaining the liquid temperature at 35°C for 55 minutes to obtain a hydrolyzed silica sol dispersion. The sol was heated and concentrated to 2900 ml at normal pressure. The concentrated solution was further heated and distilled at normal pressure, and pure water was added dropwise while maintaining the volume constant. When it was confirmed that the top temperature reached 100°C and the pH was 8 or less, the addition of pure water was stopped to obtain aqueous dispersion A.
3.1.2.水分散體B的製備 將甲醇19.0 g與N-(3-三甲氧基矽烷基丙基)乙二胺1.0 g的混合液保持液溫的同時花費10分鐘滴加到540 g水分散體A中,然後在常壓下進行2小時回流。然後,一邊保持容量固定一邊滴加純水,在塔頂溫度達到100℃的時刻結束純水的滴加,獲得含有經具有2個胺基的化合物修飾的二氧化矽粒子的水分散體B。3.1.2. Preparation of aqueous dispersion B A mixture of 19.0 g of methanol and 1.0 g of N-(3-trimethoxysilylpropyl)ethylenediamine was added dropwise to 540 g of aqueous dispersion A over 10 minutes while maintaining the liquid temperature, and then refluxed at normal pressure for 2 hours. Then, pure water was added dropwise while maintaining the volume constant, and the addition of pure water was terminated when the tower top temperature reached 100°C, to obtain aqueous dispersion B containing silica particles modified with a compound having two amino groups.
3.1.3.水分散體C的製備 除了使用N-[2-[3-(三甲氧基矽烷基)丙基胺基]乙基]乙二胺代替N-(3-三甲氧基矽烷基丙基)乙二胺以外,與[3.1.2.水分散體B的製備]同樣地,獲得包含經具有三個胺基的化合物修飾的二氧化矽粒子的水分散體C。3.1.3. Preparation of aqueous dispersion C Except for using N-[2-[3-(trimethoxysilyl)propylamino]ethyl]ethylenediamine instead of N-(3-trimethoxysilylpropyl)ethylenediamine, aqueous dispersion C containing silica particles modified with a compound having three amine groups was obtained in the same manner as in [3.1.2. Preparation of aqueous dispersion B].
3.1.4.水分散體D的製備 除了使用3-胺基丙基三乙氧基矽烷代替N-(3-三甲氧基矽烷基丙基)乙二胺以外,與[3.1.2.水分散體B的製備]同樣地,獲得含有經具有1個胺基的化合物修飾的二氧化矽粒子的水分散體D。3.1.4. Preparation of aqueous dispersion D In the same manner as in [3.1.2. Preparation of aqueous dispersion B], aqueous dispersion D containing silica particles modified with a compound having one amine group was obtained, except that 3-aminopropyltriethoxysilane was used instead of N-(3-trimethoxysilylpropyl)ethylenediamine.
3.2.化學機械研磨用組成物的製備 使用過氧化氫(東京化成工業股份有限公司製造、商品名「過氧化氫(Hydrogen Peroxide)(30%水溶液)」)作為氧化劑,在聚乙烯製容器中以成為表1~表3所示的組成的方式添加各成分,進而根據需要添加氫氧化鉀並以成為表1~表3所示的pH的方式進行調整,並以全部成分的合計量成為100質量份的方式用純水進行調整,藉此調製各實施例及各比較例的化學機械研磨用組成物。3.2. Preparation of chemical mechanical polishing composition Hydrogen peroxide (manufactured by Tokyo Chemical Industry Co., Ltd., trade name "Hydrogen Peroxide (30% aqueous solution)") was used as an oxidizing agent, and each component was added to a polyethylene container so as to have the composition shown in Tables 1 to 3. Potassium hydroxide was added as needed and the pH was adjusted so as to have the pH shown in Tables 1 to 3. The chemical mechanical polishing composition of each Example and each Comparative Example was prepared by adjusting with pure water so that the total amount of all the components was 100 parts by mass.
對於如此獲得的各化學機械研磨用組成物,將使用粒徑測定裝置(馬爾文(Malvern)公司製造、型號「傑塔思傑納米(Zetasizer nano)zs」)測定研磨粒的平均粒徑的結果一併示於表1~表3。For each chemical mechanical polishing composition obtained in this way, the average particle size of the abrasive particles was measured using a particle size measuring device (manufactured by Malvern, model "Zetasizer nano zs"), and the results are shown in Tables 1 to 3.
對於如此獲得的各化學機械研磨用組成物,將使用ζ電位測定裝置(分散技術公司(Dispersion Technology Inc.)製造、型號「DT300」)測定研磨粒的ζ電位的結果一併示於表1~表3。For each chemical mechanical polishing composition obtained in this way, the zeta potential of the abrasive grains was measured using a zeta potential measuring device (manufactured by Dispersion Technology Inc., model "DT300"), and the results are shown in Tables 1 to 3.
3.3.評價方法 3.3.1.研磨速度試驗 使用所述獲得的化學機械研磨用組成物,將直徑12英吋的帶有300 nm CVD-W膜的晶圓或直徑12英吋的帶有300 nm p-TEOS膜(矽氧化膜)的晶圓作為被研磨體,在下述研磨條件下進行了60秒的化學機械研磨試驗。3.3. Evaluation method 3.3.1. Polishing rate test Using the chemical mechanical polishing composition obtained above, a 12-inch diameter wafer with a 300 nm CVD-W film or a 12-inch diameter wafer with a 300 nm p-TEOS film (silicon oxide film) was used as the polished object, and a chemical mechanical polishing test was performed for 60 seconds under the following polishing conditions.
<研磨條件> •研磨裝置:AMAT公司製造、型號「瑞福興(Reflexion)LK」 •研磨墊:富士紡控股股份有限公司製造、「多硬質聚胺基甲酸酯製墊;H800-type1(3-1S)775」 •化學機械研磨用組成物供給速度:300 mL/分鐘 •壓盤轉速:100 rpm •頭轉速:90 rpm •頭按壓壓力:2.5 psi •研磨速度(Å/分鐘)=(研磨前的膜的厚度-研磨後的膜的厚度)/研磨時間<Polishing conditions> •Polishing device: manufactured by AMAT, model "Reflexion LK" •Polishing pad: manufactured by Fujibo Holdings Co., Ltd., "polyurethane pad; H800-type1 (3-1S) 775" •Chemical mechanical polishing composition supply rate: 300 mL/min •Platen speed: 100 rpm •Head speed: 90 rpm •Head pressing pressure: 2.5 psi •Polishing speed (Å/min) = (film thickness before polishing - film thickness after polishing) / polishing time
再者,鎢膜的厚度是利用電阻率測定機(科磊(KLA-Tencor)公司製造、型號「奧姆尼麥普(OmniMap)RS100」)並利用直流四探針法測定電阻,根據所述表面電阻值(sheet resistance value)與鎢的體積電阻率由下式算出。 •膜的厚度(Å)=[鎢膜的體積電阻率(Ω·m)÷表面電阻值(Ω)]×1010 The thickness of the tungsten film was measured by using a resistivity meter (manufactured by KLA-Tencor, model "OmniMap RS100") and a DC four-probe method to measure the resistance. The sheet resistance value and the volume resistivity of tungsten were calculated using the following formula. • Film thickness (Å) = [volume resistivity of tungsten film (Ω·m) ÷ surface resistance value (Ω)] × 10 10
研磨速度試驗的評價基準如下。鎢膜的研磨速度結果、矽氧化膜的研磨速度結果及其評價結果一併示於表1~表3。 (評價基準) •「A」…在鎢研磨速度相對於p-TEOS研磨速度的比為0.1以上且小於1.0的情況下,在實際的半導體研磨中能夠容易地確保雙方的研磨膜的速度平衡而實用,因此判斷為良好「A」。 •「B」…在鎢研磨速度相對於p-TEOS研磨速度的比為1.0以上的情況下,在實際的半導體研磨中無法確保雙方的研磨膜的速度平衡,因此難以實用,判斷為不良「B」。The evaluation criteria for the polishing speed test are as follows. The polishing speed results of the tungsten film, the polishing speed results of the silicon oxide film, and their evaluation results are shown together in Tables 1 to 3. (Evaluation criteria) • "A"... When the ratio of the tungsten polishing speed to the p-TEOS polishing speed is greater than 0.1 and less than 1.0, it is easy to ensure the speed balance of both polishing films in actual semiconductor polishing and is practical, so it is judged as good "A". • "B"... When the ratio of the tungsten polishing speed to the p-TEOS polishing speed is greater than 1.0, it is difficult to ensure the speed balance of both polishing films in actual semiconductor polishing, so it is difficult to be practical, and it is judged as bad "B".
3.3.2.平坦性評價 使用如下的測試用基板,即,將形成有100 nm矽氧化膜的12英寸晶圓加工成深度為100 nm的「半導體技術聯盟(SEMATECH)754」圖案,積層10 nm的TiN膜後,再積層200 nm的鎢膜而成的測試用基板(國際半導體技術聯盟(SEMATECH INTERNATIONAL)製造)。3.3.2. Flatness evaluation The following test substrate was used: a 12-inch wafer with a 100 nm silicon oxide film formed thereon was processed into a "SEMATECH 754" pattern with a depth of 100 nm, a 10 nm TiN film was deposited, and then a 200 nm tungsten film was deposited (manufactured by SEMATECH INTERNATIONAL).
在下述條件下對上述測試用基板進行研磨,直到矽氧化膜露出為止。針對研磨處理後的被研磨面,使用觸針式輪廓系統(布魯克(BRUKER)公司製造、型號「戴科塔(Dektak)XTL」),確認鎢配線寬度(線、L)/矽氧化膜配線寬度(空間、S)分別為0.18 μm/0.18 μm的圖案部分的鎢/矽氧化膜配線的階差(鎢凹陷)。評價基準如下。鎢凹陷的值及評價結果一併示於表1~表3。 (評價基準) •「A」…當鎢凹陷小於2 nm時,可判斷為非常良好。 •「B」…當鎢凹陷為2 nm以上且小於9 nm時,可判斷為良好。 •「C」…當鎢凹陷為9 nm以上時,判斷為不良。The test substrate was polished under the following conditions until the silicon oxide film was exposed. The polished surface was examined using a stylus profiling system (manufactured by BRUKER, model "Dektak XTL") to check the step difference (tungsten depression) of the tungsten/silicon oxide film wiring in the pattern portion where the tungsten wiring width (line, L)/silicon oxide film wiring width (space, S) was 0.18 μm/0.18 μm, respectively. The evaluation criteria are as follows. The values of the tungsten depression and the evaluation results are shown together in Tables 1 to 3. (Evaluation criteria) • "A" ... When the tungsten depression is less than 2 nm, it can be judged as very good. • "B" ... When the tungsten depression is 2 nm or more and less than 9 nm, it is judged as good. • "C" ... When the tungsten depression is 9 nm or more, it is judged as bad.
3.4.評價結果 下表1~下表3中示出各實施例及各比較例的化學機械研磨用組成物的組成以及各評價結果。3.4. Evaluation results Tables 1 to 3 below show the composition of the chemical mechanical polishing composition of each embodiment and each comparative example and the evaluation results.
[表1]
[表2]
[表3]
上表1~上表3中各成分分別使用下述的商品或試劑。再者,上表1~上表3中的研磨粒的含量表示各水分散體的固體成分濃度。 <研磨粒> •水分散體A~水分散體D:所述製備的二氧化矽粒子的水分散體A~水分散體D <用於表面修飾的化合物> •單胺:東京化成工業股份有限公司製造、商品名「(3-Aminopropyltriethoxysilane)」、3-胺基丙基三乙氧基矽烷 •二胺:東京化成工業股份有限公司製造、商品名「3-(2-胺基乙基胺基)丙基三甲氧基矽烷(3-(2-Aminoethylamino)propyltrimethoxysilane)」、N-(3-三甲氧基矽烷基丙基)乙二胺 •三胺:富士膠片和光純藥股份有限公司製造、商品名「三甲氧基矽烷基丙基二亞乙基三胺」、N-[2-[3-(三甲氧基矽烷基)丙基胺基]乙基]乙二胺 <酸性化合物> •檸檬酸:東京化成工業股份有限公司製造、商品名「檸檬酸(Citric Acid)」 •馬來酸:東京化成工業股份有限公司製造、商品名「馬來酸(Maleic Acid)」 •丙二酸:東京化成工業股份有限公司製造、商品名「丙二酸(Malonic Acid)」 •硝酸:關東化學股份有限公司製造、商品名「硝酸1.38」 <水溶性高分子> •艾蕾姆(esleam)AD-3172M:日油股份有限公司製造、商品名「艾蕾姆(esleam)AD-3172M」 <界面活性劑> •尼桑安頓(NISSAN ANON)LA:日油股份有限公司製造、商品名「尼桑安頓(NISSAN ANON)」LA、月桂基胺基二乙酸鈉 <氧化劑> •過氧化氫:東京化成工業股份有限公司製造、商品名「過氧化氫(Hydrogen Peroxide)(35%水溶液)(35% in Water)」、The following products or reagents were used for each component in Tables 1 to 3. The content of abrasive grains in Tables 1 to 3 indicates the solid content concentration of each aqueous dispersion. <Abrasive grains> • Aqueous dispersion A to aqueous dispersion D: Aqueous dispersion A to aqueous dispersion D of the prepared silica particles <Compounds for surface modification> • Monoamine: manufactured by Tokyo Chemical Industry Co., Ltd., trade name "(3-Aminopropyltriethoxysilane)", 3-aminopropyltriethoxysilane • Diamine: manufactured by Tokyo Chemical Industry Co., Ltd., trade name "3-(2-aminoethylamino)propyltrimethoxysilane (3-(2- =Triamine: manufactured by Fuji Film Co., Ltd. Wako Pure Chemical Industries, Ltd., trade name "Trimethoxysilylpropyl diethylenetriamine", N-[2-[3-(Trimethoxysilyl)propylamino]ethyl]ethylenediamine <Acidic compounds> •Citric acid: manufactured by Tokyo Chemical Industry Co., Ltd., trade name "Citric acid (Citric acid) Acid) •Maleic acid: manufactured by Tokyo Chemical Industry Co., Ltd., trade name "Maleic Acid" •Malonic acid: manufactured by Tokyo Chemical Industry Co., Ltd., trade name "Malonic Acid" •Nitric acid: manufactured by Kanto Chemical Co., Ltd., trade name "Nitric Acid 1.38" <Water-soluble polymer> •esleam AD-3172M: manufactured by NOF Corporation, trade name "esleam AD-3172M" <Surfactant> •NISSAN ANON LA: manufactured by NOF Corporation, trade name "NISSAN ANON" LA, sodium lauryl aminodiacetate <Oxidant> •Hydrogen peroxide: manufactured by Tokyo Chemical Industry Co., Ltd., trade name "Hydrogen Peroxide (35% aqueous solution) (35% in Water
根據上表1~3的評價結果,在使用實施例1~實施例28的化學機械研磨用組成物的情況下,均可以實用的研磨速度研磨鎢膜及p-TEOS膜,而且可容易地確保雙方的研磨膜的速度平衡,並且可顯著地減少研磨後的表面缺陷(鎢凹陷)。According to the evaluation results in Tables 1 to 3 above, when the chemical mechanical polishing compositions of Examples 1 to 28 are used, tungsten films and p-TEOS films can be polished at practical polishing speeds, and the polishing speed balance of both films can be easily ensured, and surface defects (tungsten pits) after polishing can be significantly reduced.
本發明並不限定於所述實施方式,可進行各種變形。例如,本發明包括與實施方式中說明的構成實質上相同的構成(例如功能、方法及結果相同的構成,或目的及效果相同的構成)。另外,本發明包括對實施方式中說明的構成的非本質部分進行替換而成的構成。另外,本發明包括發揮與實施方式中說明的構成相同的作用效果的構成或可達成相同目的的構成。另外,本發明包括對實施方式中說明的構成附加公知技術所得的構成。The present invention is not limited to the embodiments described above, and various modifications are possible. For example, the present invention includes a configuration substantially the same as the configuration described in the embodiments (e.g., a configuration having the same function, method, and result, or a configuration having the same purpose and effect). In addition, the present invention includes a configuration in which the non-essential part of the configuration described in the embodiments is replaced. In addition, the present invention includes a configuration that exerts the same effect as the configuration described in the embodiments, or a configuration that can achieve the same purpose. In addition, the present invention includes a configuration obtained by adding a known technology to the configuration described in the embodiments.
10:基體 12:矽氧化膜 14:通孔 16:阻擋金屬膜 18:鎢膜 42:漿料供給噴嘴 44:化學機械研磨用組成物(漿料) 46:研磨布 48:轉盤 50:半導體基板 52:載體頭 54:水供給噴嘴 56:修整器 100:被處理體 200:半導體裝置 300:化學機械研磨裝置10: substrate 12: silicon oxide film 14: through hole 16: barrier metal film 18: tungsten film 42: slurry supply nozzle 44: chemical mechanical polishing composition (slurry) 46: polishing cloth 48: turntable 50: semiconductor substrate 52: carrier head 54: water supply nozzle 56: dresser 100: processed object 200: semiconductor device 300: chemical mechanical polishing device
圖1是示意性地表示本實施方式的化學機械研磨中使用的被處理體的剖面圖。 圖2是示意性地表示第一研磨步驟後的被處理體的剖面圖。 圖3是示意性地表示第二研磨步驟後的被處理體的剖面圖。 圖4是示意性地表示化學機械研磨裝置的立體圖。FIG1 is a schematic cross-sectional view of a workpiece used in chemical mechanical polishing according to the present embodiment. FIG2 is a schematic cross-sectional view of a workpiece after a first polishing step. FIG3 is a schematic cross-sectional view of a workpiece after a second polishing step. FIG4 is a schematic perspective view of a chemical mechanical polishing apparatus.
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