Nothing Special   »   [go: up one dir, main page]

JPH11186123A - Development of photosensitive film formed on wafer - Google Patents

Development of photosensitive film formed on wafer

Info

Publication number
JPH11186123A
JPH11186123A JP10154617A JP15461798A JPH11186123A JP H11186123 A JPH11186123 A JP H11186123A JP 10154617 A JP10154617 A JP 10154617A JP 15461798 A JP15461798 A JP 15461798A JP H11186123 A JPH11186123 A JP H11186123A
Authority
JP
Japan
Prior art keywords
photosensitive film
wafer
developing
developing solution
film formed
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP10154617A
Other languages
Japanese (ja)
Inventor
Sang-Kap Kim
商甲 金
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Samsung Electronics Co Ltd
Original Assignee
Samsung Electronics Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Samsung Electronics Co Ltd filed Critical Samsung Electronics Co Ltd
Publication of JPH11186123A publication Critical patent/JPH11186123A/en
Pending legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03FPHOTOMECHANICAL PRODUCTION OF TEXTURED OR PATTERNED SURFACES, e.g. FOR PRINTING, FOR PROCESSING OF SEMICONDUCTOR DEVICES; MATERIALS THEREFOR; ORIGINALS THEREFOR; APPARATUS SPECIALLY ADAPTED THEREFOR
    • G03F7/00Photomechanical, e.g. photolithographic, production of textured or patterned surfaces, e.g. printing surfaces; Materials therefor, e.g. comprising photoresists; Apparatus specially adapted therefor
    • G03F7/26Processing photosensitive materials; Apparatus therefor
    • G03F7/30Imagewise removal using liquid means
    • G03F7/3021Imagewise removal using liquid means from a wafer supported on a rotating chuck

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Exposure Of Semiconductors, Excluding Electron Or Ion Beam Exposure (AREA)
  • Photosensitive Polymer And Photoresist Processing (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a development method in which neither dissolved photosensitive film particles nor fine residues of a developer and a cleaning solvent remain on a wafer even of the rotating speed of the wafer is reduced. SOLUTION: A wafer 10, in which a material layer 11 for forming a desired pattern and a photosensitive film 12 coated on the layer 11 are formed, is attached to a wafer holder 14 so that the surface of the film 12 faces the ground. Then, a developer 28 is jetted onto the surface of the film 12 using a developer jetting unit 16 to thereby cause the film 12 to react with the developer 28. A cleaning solvent is thereafter jetted onto the surface of the film 12, which has already been jetted with the developer 28, using the cleaning solvent jetting unit 16. The developer jetting step and the cleaning solvent jetting step are performed while the water is being rotated.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は半導体素子の製造方
法に係り、さらに詳細にはウエーハ上に形成された感光
膜の現像方法に関する。
The present invention relates to a method for manufacturing a semiconductor device, and more particularly, to a method for developing a photosensitive film formed on a wafer.

【0002】[0002]

【従来の技術】一般的に半導体素子は数多くの工程をた
どって製造される。このような数多くの工程中からウエ
ーハ上に形成された物質層を望みのパターンに形成する
ためのフォト工程は半導体素子の製造に必須に要求され
る工程である。このようなフォト工程はウエーハ上に感
光膜、例えばフォトレジスト膜を形成する塗布工程と、
前記フォトレジスト膜の所定領域に紫外線のような光を
選択的に照射する露光工程と、前記露光工程が完了した
ウエーハ上のフォトレジスト膜を現像し望みの形態のフ
ォトレジストパターンを形成する現像工程を含む。
2. Description of the Related Art Generally, a semiconductor device is manufactured through a number of steps. A photo process for forming a material layer formed on a wafer into a desired pattern from such many processes is an essential process for manufacturing a semiconductor device. Such a photo process includes a coating process of forming a photosensitive film, for example, a photoresist film on a wafer,
An exposure step of selectively irradiating predetermined regions of the photoresist film with light such as ultraviolet light, and a development step of developing the photoresist film on the wafer after the exposure step is completed to form a photoresist pattern of a desired form. including.

【0003】一方、従来の現像工程はウエーハ上に形成
された感光膜の表面が上に向かった状態で進行される。
この時、現像工程中現像液に溶解された感光膜は現像液
中に微細な粒子として存在するようになる。このような
従来の現像工程において、ウエーハ上に存在する溶解さ
れた感光膜粒子と現像液及び洗浄液の除去はウエーハを
回転させ遠心力によりウエーハの外に弾んで行くように
することによって遂行される。
On the other hand, the conventional developing process proceeds with the surface of a photosensitive film formed on a wafer facing upward.
At this time, the photosensitive film dissolved in the developing solution during the developing process is present as fine particles in the developing solution. In such a conventional developing process, the removal of the dissolved photosensitive film particles, the developing solution and the cleaning solution existing on the wafer is performed by rotating the wafer and bouncing out of the wafer by centrifugal force. .

【0004】しかし、ウエーハ上に存在する溶解された
感光膜粒子と現像液及び洗浄液を取り除くために、感光
膜表面が上に向かった状態でウエーハを回転させれば、
現像液に溶解された感光膜粒子と現像液及び洗浄液は遠
心力により加速されながら感光膜パターンの側壁にぶつ
かるようになる。このように従来の現像工程は、感光膜
パターンの側壁に力が加えられることによって、下部膜
との接触面積が小さい感光膜パターンは押されたり倒れ
たりまたは基板から分離される現像が発生するようにな
って望みのパターンを十分に形成できない問題点があっ
た。
However, if the wafer is rotated with the surface of the photosensitive film facing upward, in order to remove the dissolved photosensitive film particles, the developing solution and the cleaning solution present on the wafer,
The photosensitive film particles dissolved in the developing solution, the developing solution and the cleaning solution are accelerated by the centrifugal force and collide with the side wall of the photosensitive film pattern. As described above, in the conventional developing process, when a force is applied to the side wall of the photosensitive film pattern, the photosensitive film pattern having a small contact area with the lower film is pressed, falls, or is separated from the substrate. Thus, there is a problem that a desired pattern cannot be formed sufficiently.

【0005】このように感光膜パターンが押されたり倒
れたりする問題点は、特にウエーハのへり附近でたくさ
ん発生するようになり、ウエーハの口径が大きくなるほ
ど発生領域もさらに広くなって、半導体素子の不良率を
増やす原因になる。従来の現像工程では、このような遠
心力による問題点を最小化するために、ウエーハの回転
速度を減少させる方法が使われている。しかし、回転速
度を減少させると、溶解された感光膜粒子と現像液及び
洗浄液が十分に基板のそとに弾んで行かれなくなる。し
たがって現像工程が完了した後にも、ウエーハ上に溶解
された感光膜粒子と現像液及び洗浄液の微細な残留物が
残ることになり他の問題点が発生するようになる。
[0005] The problem that the photosensitive film pattern is pushed or collapsed often occurs particularly near the edge of the wafer. The larger the diameter of the wafer, the larger the area where the pattern is generated. This will increase the defective rate. In the conventional developing process, a method of reducing the rotation speed of the wafer is used to minimize the problem caused by the centrifugal force. However, when the rotation speed is reduced, the dissolved photosensitive film particles, the developing solution and the cleaning solution are not sufficiently repelled by the substrate. Therefore, even after the development process is completed, fine residues of the photosensitive film particles and the developing solution and the cleaning solution dissolved on the wafer remain, thereby causing other problems.

【0006】一方、このような遠心力による問題点を最
小化するための他の方法としては、ウエーハの口径を小
さくしたりパターンサイズを大きくして感光膜パターン
と下部膜との接触面積を増やす方法があるが、これは半
導体素子が高集積化されウエーハの大きさが大口径化さ
れる現在の技術の趨勢から見た時、相反する方法であっ
て実現することが非常にむずかしい。
On the other hand, as another method for minimizing such a problem due to the centrifugal force, the contact area between the photosensitive film pattern and the lower film is increased by reducing the diameter of the wafer or increasing the pattern size. Although there is a method, this is a contradictory method in view of the current technology trend in which semiconductor devices are highly integrated and the size of a wafer is enlarged, and it is very difficult to realize the method.

【0007】[0007]

【発明が解決しようとする課題】本発明は前記のような
問題点を解決するために案出されたもので、ウエーハの
回転速度を減少させてもウエーハ上に溶解された感光膜
粒子と現像液及び洗浄液の微細な残留物が残らない現像
方法を提供することにその目的がある。
SUMMARY OF THE INVENTION The present invention has been devised in order to solve the above-mentioned problems, and the photosensitive film particles dissolved on the wafer can be developed even when the rotation speed of the wafer is reduced. It is an object of the present invention to provide a developing method in which fine residues of a liquid and a cleaning liquid do not remain.

【0008】[0008]

【課題を解決するための手段】前記目的を達成するため
の本発明のウエーハ上に形成された感光膜の現像方法
は、望みのパターンを形成するための物質層と前記物質
層上にコーティングし露光され感光膜が形成されたウエ
ーハを前記感光膜の表面が下へ向かうようにウエーハホ
ルダーに装着する段階と、前記感光膜の表面に現像液噴
射装置を利用して現像液を噴射し前記感光膜と前記現像
液を反応させる段階と、前記現像液と反応された感光膜
の表面に洗浄液噴射装置を利用し洗浄液を噴射する段階
を具備する。前記現像液噴射段階と前記洗浄液噴射段階
は前記ウエーハが回転する状態で進行される。
According to the present invention, there is provided a method for developing a photosensitive film formed on a wafer, comprising the steps of: forming a material layer for forming a desired pattern; and coating the material layer with the material layer. Mounting the exposed wafer on which the photosensitive film is formed in a wafer holder such that the surface of the photosensitive film faces downward, and injecting a developing solution onto the surface of the photosensitive film using a developer injecting device to expose the photosensitive film; The method includes reacting the film with the developing solution, and injecting a cleaning solution onto a surface of the photosensitive film reacted with the developing solution using a cleaning solution spraying device. The step of spraying the developing solution and the step of spraying the cleaning solution are performed while the wafer is rotating.

【0009】前記現像液噴射装置と前記洗浄液噴射装置
は同一な噴射装置または各々異なる噴射装置でありう
る。前記現像液噴射装置の数及び前記洗浄液噴射装置の
数は複数であることが望ましく、前記現像液噴射装置と
前記洗浄液噴射装置は前記感光膜の表面に沿って移動す
ることが望ましい。前記現像液の反応時円滑な反応のた
めにウエーハに微少な振動を加えることが望ましい。
The developing liquid ejecting apparatus and the cleaning liquid ejecting apparatus may be the same ejecting apparatus or different ejecting apparatuses. It is preferable that the number of the developing solution ejecting devices and the number of the cleaning solution ejecting devices are plural, and it is preferable that the developing solution ejecting device and the cleaning solution ejecting device move along the surface of the photosensitive film. It is desirable to apply a slight vibration to the wafer for a smooth reaction during the reaction of the developer.

【0010】前記ウエーハの回転速度は、前記現像反応
段階で溶解された前記感光膜の微細な粒子と前記洗浄液
及び前記現像液の重力による自重とウエーハの回転運動
による遠心力との力の合成成分の方向が感光膜パターン
の側壁に対し傾斜した方向になるよう調節することが望
ましい。前記現像液反応段階を遂行する前にまず前リン
ス段階をさらに含むことができる。
The rotational speed of the wafer is a composite component of the force of the weight of the fine particles of the photosensitive film dissolved in the development reaction stage, the weight of the washing solution and the developing solution, and the centrifugal force of the rotating motion of the wafer. Is desirably adjusted so as to be inclined with respect to the side wall of the photosensitive film pattern. Before performing the developing solution reaction step, a pre-rinsing step may be further included.

【0011】本発明にともなうウエーハ上に形成された
感光膜の現像方法は、従来の方法に比べて重力による効
果によって充分なリンス効果をおさめながらウエーハの
回転速度を概略、1,000rpm程度減少させることができる
ため、遠心力によるフォトレジストパターンの倒れや押
される現像を防止して半導体素子の不良率を低めること
ができる。
The method for developing a photosensitive film formed on a wafer according to the present invention is to reduce the rotational speed of the wafer by about 1,000 rpm while maintaining a sufficient rinsing effect by the effect of gravity as compared with the conventional method. Therefore, it is possible to prevent the photoresist pattern from collapsing due to the centrifugal force and to prevent the development from being pushed, thereby reducing the defective rate of the semiconductor element.

【0012】また、現在使用中の8インチウエーハだけ
でなく12インチウエーハに適用しても望ましい結果を期
待することができる。これはウエーハの大口径化に従う
現像工程においてウエーハの回転速度をさらに低くしな
がら充分なリンス効果をおさめることが要求される趨勢
に鑑みる時、望ましいことである。
Also, desired results can be expected if the present invention is applied not only to currently used 8-inch wafers but also to 12-inch wafers. This is desirable in view of the trend that a sufficient rinsing effect is required to be achieved while further reducing the rotation speed of the wafer in a developing process in accordance with an increase in the diameter of the wafer.

【0013】[0013]

【発明の実施の形態】以下、添付された図面を参照して
本発明にともなう望ましい実施の形態を詳細に説明す
る。但し、本発明が下記の実施の形態に限定されるよう
に解釈されるようなことはない。また、図面で層や領域
等の厚さは説明を明確にするために誇張されたことであ
る。図面で同一な参照符号は同一な構成要素を示す。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments according to the present invention will be described below in detail with reference to the accompanying drawings. However, it should not be construed that the present invention is limited to the following embodiments. In the drawings, the thickness of layers, regions, and the like are exaggerated for clarity. The same reference numerals in the drawings denote the same components.

【0014】通常、現像工程は前リンス段階から現像段
階、そして、後リンス段階を経るようになる。前リンス
段階ではフォトレジストのような感光膜の表面を洗浄し
温度を調節し、後リンス段階では現像工程中感光膜表面
に吐出された現像液を洗い落とす。望みのパターンを形
成するための物質層と前記物質層上にコーティングされ
た感光膜を具備するウエーハは、露光工程及び前リンス
工程をたどった後、現像段階が進行される。現像段階は
現像液吐出段階と現像反応段階とに大別される。
In general, the developing process is performed through a pre-rinsing step, a developing step, and a post-rinsing step. In the pre-rinsing step, the surface of the photosensitive film such as a photoresist is washed and the temperature is adjusted, and in the post-rinsing step, the developing solution discharged on the photosensitive film surface during the developing process is washed away. A wafer having a material layer for forming a desired pattern and a photosensitive film coated on the material layer is subjected to an exposure process and a pre-rinse process, and then a development process is performed. The development step is roughly divided into a developer discharge step and a development reaction step.

【0015】現像液吐出段階では、現像液がノズルのよ
うな噴射装置により感光膜が形成されたウエーハ上に吐
出される。この時、現像液は感光膜の全面に均一でかつ
同時に吐出されるべきである。現像反応段階では、現像
液吐出段階で感光膜上に均一に吐出された現像液が感光
膜の露光された部分を選択的に溶解させる。この時、現
像液が物理的力の影響を受けるようになれば露光されな
い感光膜側壁の一部分が現像液と反応するようになるの
で、感光膜の露光された部分と現像液は物理的力の影響
を受けずに、純粋に化学的反応がおこるようにウエーハ
の回転速度が調節されるのが望ましい。
In the developing solution discharging step, the developing solution is discharged onto the wafer having the photosensitive film formed thereon by an injection device such as a nozzle. At this time, the developer should be uniformly and simultaneously discharged onto the entire surface of the photosensitive film. In the developing reaction step, the developing solution uniformly discharged on the photosensitive film in the developing solution discharging step selectively dissolves the exposed portion of the photosensitive film. At this time, if the developing solution is affected by the physical force, a part of the unexposed photosensitive film side wall reacts with the developing solution, so that the exposed portion of the photosensitive film and the developing solution are affected by the physical force. It is desirable that the rotational speed of the wafer be adjusted so that a pure chemical reaction occurs without being affected.

【0016】現像反応段階の間、現像液と反応して溶解
された感光膜及び現像液をウエーハから取り除くため
に、ウエーハは続けて後リンス段階を経るようになる。
後リンス段階では、ノズルのような噴射装置から噴射さ
れる洗浄液を利用して溶解された感光膜及び現像液をウ
エーハから取り除き、この時、ウエーハを回転させ溶解
された感光膜及び現像液に適切な遠心力を加えることに
よって効率的に除かれるようにする。
During the development reaction step, the wafer goes through a post-rinse step in order to remove the photosensitive film and the developer dissolved by reacting with the developer from the wafer.
In the post-rinsing step, the dissolved photosensitive film and the developing solution are removed from the wafer by using a cleaning solution sprayed from a spraying device such as a nozzle, and at this time, the wafer is rotated to appropriately remove the dissolved photosensitive film and the developing solution. By applying a gentle centrifugal force, it can be efficiently removed.

【0017】ところが、既に記述した遠心力による問題
点は主に後リンス段階から発生するようになる。したが
って、本発明は後リンス段階を改善して遠心力による問
題点を最小化するためのことである。図1は本発明の現
像方法を説明するための概略図である。
However, the above-described problem due to the centrifugal force mainly occurs from the post-rinsing stage. Therefore, the present invention is to improve the post-rinsing step to minimize the problem due to the centrifugal force. FIG. 1 is a schematic view for explaining the developing method of the present invention.

【0018】図1を参照すれば、まず酸化膜のような物
質層11とフォトレジストのような感光膜12とが順に形成
されたウエーハ10を、真空チャックを具備するようなウ
エーハホルダー14に設置する。この時、感光膜12の表面
12aを上向きに設置する従来の方法と異なり、本発明の
方法では感光膜12の表面12aを下向きに設置する。感光
膜12の表面12aを下向きに設置することは現像反応段階
から溶解された感光膜と現像液がウエーハから取除かれ
る時、遠心力だけでなく重力による自重を受けることに
よって、既に説明した遠心力による問題点を最小化する
ためのことである。 そして、感光膜12を現像するため
にノズルのような噴射装置16から感光膜12の表面12aに
向かって現像液を噴射する(現像液吐出段階)。前記現像
液吐出段階を経る前に前リンス段階を経ることが望まし
い。
Referring to FIG. 1, a wafer 10 on which a material layer 11 such as an oxide film and a photosensitive film 12 such as a photoresist are sequentially formed is placed on a wafer holder 14 having a vacuum chuck. I do. At this time, the surface of the photosensitive film 12
Unlike the conventional method in which the surface 12a is placed upward, in the method of the present invention, the surface 12a of the photosensitive film 12 is placed downward. Placing the surface 12a of the photosensitive film 12 facing downward is not only the centrifugal force but also the centrifugal force when the dissolved photosensitive film and the developing solution are removed from the wafer from the development reaction stage, and the centrifugal force described above is applied. This is to minimize problems caused by force. Then, in order to develop the photosensitive film 12, a developing solution is ejected from an ejecting device 16 such as a nozzle toward the surface 12a of the photosensitive film 12 (developing solution discharging step). Preferably, a pre-rinsing step is performed before the developing solution discharging step.

【0019】現像液吐出段階が遂行された後、続いて現
像液反応段階が進行される。この時、円滑な反応のため
にウエーハに微細な振動を与えることが望ましい。現像
液反応段階は以下で再び詳細に説明する。現像液反応段
階で溶解された感光膜と現像液をウエーハから取り除く
ために、噴射装置16から感光膜12の表面12aに向かって
洗浄液18を噴射する(後リンス段階)。図1には一つの噴
射装置16だけを示したが、図2に示したように複数の噴
射装置26a、26b、26cから洗浄液27、28、29が噴射で
き、噴射装置の数は必要によって変わることができる。
また、現像液と洗浄液は図1に示したように同一な噴射
装置から噴射されることができ、各々別の噴射装置から
噴射されることもできる。図2で参照番号20、21、22は
図1と同じく各々ウエーハ、望みのパターンを形成する
ための物質層、感光膜を示す。参照番号22aは感光膜の
表面を示し、参照番号24はウエーハホルダーを示す。噴
射装置16または26a、26b、26cは効率的なリンスのため
に感光膜12または感光膜22の表面22aまたは22aに沿って
移動することもできる。
After the developing solution discharging step is performed, a developing solution reaction step is subsequently performed. At this time, it is desirable to apply fine vibration to the wafer for a smooth reaction. The developer reaction step is described in detail again below. In order to remove the photosensitive film and the developing solution dissolved in the developing solution reaction step from the wafer, the cleaning liquid 18 is sprayed from the spraying device 16 toward the surface 12a of the photosensitive film 12 (post-rinsing step). Although only one injection device 16 is shown in FIG. 1, a plurality of injection devices 26a, 26b, 26c can jet the cleaning liquids 27, 28, 29 as shown in FIG. 2, and the number of the injection devices varies according to need. be able to.
Further, the developing solution and the cleaning solution can be jetted from the same jetting device as shown in FIG. 1, or can be jetted from different jetting devices. In FIG. 2, reference numerals 20, 21, and 22 denote a wafer, a material layer for forming a desired pattern, and a photosensitive film, respectively, as in FIG. Reference numeral 22a indicates the surface of the photosensitive film, and reference numeral 24 indicates a wafer holder. Injection device 16 or 26a, 26b, 26c can also move along surface 22a or 22a of photosensitive film 12 or photosensitive film 22 for efficient rinsing.

【0020】現像液吐出段階と現像液反応段階とからな
る現像段階と後リンス段階において、ウエーハホルダー
14またはウエーハホルダー24に設置されたウエーハ10ま
たはウエーハ20はモーターのような回転運動を発生させ
る装置(図示せず)によってaまたはb方向に回転したり、
またはその反対方向に回転する。この時、ウエーハの回
転速度は現像段階と後リンス段階において相異なること
がある。図3は図1のA部分の拡大断面図であり、現像
反応段階で現像液に溶解された感光膜部分と現像液が後
リンス段階をたどりながらウエーハ外に除くことを示
す。
In a developing step including a developing liquid discharging step and a developing liquid reaction step and a post-rinsing step, a wafer holder is provided.
The wafer 10 or the wafer 20 installed on the wafer holder 14 or the wafer holder 24 is rotated in the a or b direction by a device (not shown) that generates a rotational motion such as a motor,
Or rotate in the opposite direction. At this time, the rotation speed of the wafer may be different between the developing stage and the post-rinsing stage. FIG. 3 is an enlarged cross-sectional view of the portion A in FIG. 1, and shows that the photosensitive film portion and the developing solution dissolved in the developing solution in the developing reaction step are removed from the wafer while following the post-rinsing step.

【0021】図3を参照すれば、露光工程で露光された
感光膜12の部分32は現像液に溶解され、反対に露光工程
で露光されてない感光膜12の部分34は現像液に溶解され
ない。溶解された感光膜12の部分32は現像液中に微細な
粒子36として残っているようになる。図3に示したよう
に、本発明の現像方法は、後リンス段階で、このような
微細な粒子36と現像液及び洗浄液がウエーハ10に残留し
なく、また露光されてない感光膜12の部分34(すなわ
ち、感光膜パターン)に微細な粒子36と液体の遠心力に
よる影響を最小化するためである。このためにウエーハ
の回転速度を適切に調節し微細な粒子36と液体の重力に
よる自重とウエーハの回転にともなう遠心力を調整する
ことによって、微細な粒子36と液体がウエーハ10からc
またはd方向に(すなわち、感光膜パターンの側壁にぶつ
けられない方向に)弾んで行けるようにすることであ
る。この時ウエーハの回転速度は前記感光膜パターンの
線幅と高さに依存し、また感光膜パターンと下部膜との
接着度(すなわち、下部膜の種)に依存する。以上ではポ
ジティブフォトレジストの現像工程に対し説明したが、
ネガティブフォトレジストの現像工程の場合でも感光膜
の露光されてない部分が現像されるということを除いて
は同一である
Referring to FIG. 3, a portion 32 of the photosensitive film 12 exposed in the exposure process is dissolved in a developing solution, and a portion 34 of the photosensitive film 12 not exposed in the exposing process is not dissolved in the developing solution. . The portion 32 of the dissolved photosensitive film 12 remains as fine particles 36 in the developer. As shown in FIG. 3, in the developing method of the present invention, in the post-rinsing step, such fine particles 36 and the developing solution and the cleaning solution do not remain on the wafer 10 and the portion of the photosensitive film 12 that has not been exposed. This is to minimize the influence of the fine particles 36 and the liquid due to the centrifugal force on the liquid crystal 34 (that is, the photosensitive film pattern). For this purpose, by appropriately adjusting the rotation speed of the wafer and adjusting the own weight of the fine particles 36 and the liquid due to the gravity and the centrifugal force accompanying the rotation of the wafer, the fine particles 36 and the liquid are removed from the wafer 10 by c.
Alternatively, it can be bounced in the direction d (that is, in a direction that does not hit the side wall of the photosensitive film pattern). At this time, the rotation speed of the wafer depends on the line width and height of the photosensitive film pattern, and also depends on the degree of adhesion between the photosensitive film pattern and the lower film (that is, the type of the lower film). In the above, the development process of the positive photoresist has been described.
The process is the same except that the unexposed portion of the photosensitive film is developed even in the case of developing the negative photoresist.

【0022】次に、上記本発明との比較例について説明
する。従来の現像方法と本発明の現像方法を比較するた
めに、まず図4に示したように酸化膜41と感光膜42が順
に形成された複数の8インチウエーハ40を準備して、こ
の8インチウエーハ40上に形成された感光膜42に露光工
程を進行した。そして、各々異なるウエーハ40を利用し
て前記露光された感光膜42に従来の現像方法と本発明の
現像方法に従って、幅が0.15〜0.5μm(概略0.3μm )
で、高さが4,000〜10,000オングストロームである感光
膜パターンを形成した。その結果、8インチウエーハ40
において線幅が0.3μm以下である場合、従来の現像方法
ではウエーハ40の回転速度が概略3,500rpm以下では遠心
力によるリンス効果が落ちることによってウエーハ40の
へりに溶解された感光膜粒子と現像液及び洗浄液の微細
な残留物が残っていた。
Next, a comparative example with the present invention will be described. In order to compare the conventional developing method with the developing method of the present invention, first, as shown in FIG. 4, a plurality of 8-inch wafers 40 on which an oxide film 41 and a photosensitive film 42 are sequentially formed are prepared. The exposure process was performed on the photosensitive film formed on the wafer. According to the conventional developing method and the developing method of the present invention, a width of 0.15 to 0.5 μm (approximately 0.3 μm) is applied to the exposed photosensitive film 42 using the different wafers 40.
Thus, a photosensitive film pattern having a height of 4,000 to 10,000 angstroms was formed. As a result, the 8-inch wafer 40
In the case where the line width is 0.3 μm or less, in the conventional developing method, when the rotation speed of the wafer 40 is approximately 3,500 rpm or less, the photosensitive film particles dissolved in the edge of the wafer 40 and the developing solution due to a decrease in the rinsing effect due to the centrifugal force. And a fine residue of the washing liquid remained.

【0023】一方、本発明による現像方法の場合には、
ウエーハ40の回転速度が概略2,500rpm近くでも、ウエー
ハ40のへりに、溶解した感光膜粒子と現像液及び洗浄液
の微細な残留物が残っていなかった。ここで、8インチ
ウエーハ上に形成された感光膜を現像する場合、線幅が
0.3μmの時、ウエーハの回転にともなう遠心力によって
感光膜パターンが押されたり倒れたりする問題点を最小
化するためにはウエーハの回転速度が概略3,000rpm以下
にすべきである。
On the other hand, in the case of the developing method according to the present invention,
Even when the rotation speed of the wafer 40 was approximately 2,500 rpm, no dissolved photosensitive film particles and fine residues of the developing solution and the cleaning solution remained on the edge of the wafer 40. Here, when developing a photosensitive film formed on an 8-inch wafer, the line width is
When the thickness is 0.3 μm, the rotation speed of the wafer should be approximately 3,000 rpm or less in order to minimize the problem that the photosensitive film pattern is pushed or collapsed by the centrifugal force accompanying the rotation of the wafer.

【0024】したがって、8インチウエーハの回転速度
を3,000rpm以下に低くめることができる本発明の現像方
法は、遠心力にともなう問題点を最小化できながら充分
なリンス効果をおさめることができる。
Therefore, the developing method of the present invention, in which the rotation speed of an 8-inch wafer can be reduced to 3,000 rpm or less, can achieve a sufficient rinsing effect while minimizing the problems associated with centrifugal force.

【0025】以上の実施の形態において本発明に対して
説明したが、本発明は前述した実施の形態に示されてい
る例に限定されることでなく、単に、本実施の形態は本
発明の開示を完全にし、通常の知識を持った者に発明の
範疇を完全に知らせるために提供されることであり、本
発明の技術思想及び範囲内で当分野の通常の知識を持っ
た者によって各種変形及び改良が可能なことは明白であ
る。
Although the present invention has been described in the above embodiments, the present invention is not limited to the examples shown in the above-described embodiments, and the present embodiments are merely examples of the present invention. The purpose of the present invention is to provide a complete disclosure and completely inform the person of ordinary knowledge of the scope of the invention. Various persons within the technical idea and scope of the present invention may be provided by those of ordinary skill in the art. Obviously, modifications and improvements are possible.

【0026】[0026]

【発明の効果】以上で見たように本発明にともなうウエ
ーハ上に形成された感光膜の現像方法は、従来の方法に
比べて重力による効果によって充分なリンス効果をおさ
めながらもウエーハの回転速度を概略1,000rpm程度減少
させることができるために遠心力によるフォトレジスト
パターンの倒れや押される現像を防止して半導体素子の
不良率を低減することができる。
As described above, the method of developing a photosensitive film formed on a wafer according to the present invention is more effective than the conventional method in that a sufficient rinsing effect is achieved by the effect of gravity while the rotational speed of the wafer is reduced. Can be reduced by about 1,000 rpm, so that the photoresist pattern can be prevented from collapsing due to the centrifugal force and the pushed development can be prevented, and the defective rate of the semiconductor element can be reduced.

【0027】また、現在使用中の8インチウエーハだけ
でなく12インチウエーハに適用しても望ましい結果を期
待することができる。これはウエーハの大口径化によっ
て現像工程においてウエーハの回転速度をさらに低くし
ながら充分なリンス効果をおさめることが要求される趨
勢に鑑みる時、望ましいと言える。
[0027] Also, a desired result can be expected even when applied to a 12-inch wafer as well as an 8-inch wafer currently in use. This can be said to be desirable in view of the trend that it is required to reduce the rotational speed of the wafer in the developing process and to achieve a sufficient rinsing effect by increasing the diameter of the wafer.

【図面の簡単な説明】[Brief description of the drawings]

【図1】 本発明の現像方法を示す概念図である。FIG. 1 is a conceptual diagram illustrating a developing method of the present invention.

【図2】 図1に示した噴射装置が複数であることを示
す図面である。
FIG. 2 is a view showing that there are a plurality of injection devices shown in FIG. 1;

【図3】 図1のAを拡大した拡大断面図である。FIG. 3 is an enlarged cross-sectional view enlarging A in FIG. 1;

【図4】 本発明と従来技術を比較するための試料を示
す断面図である。
FIG. 4 is a cross-sectional view showing a sample for comparing the present invention with a conventional technique.

【符号の説明】 10: ウエーハ 11:物質層 12:感光膜 12a: 感光膜12の表面 14:ウエーハホルダー 16:噴射装置 18: 洗浄液[Description of Signs] 10: Wafer 11: Material layer 12: Photosensitive film 12a: Surface of Photosensitive film 12: Wafer holder 16: Injecting device 18: Cleaning liquid

Claims (10)

【特許請求の範囲】[Claims] 【請求項1】 望みのパターンを形成するための物質層
と前記物質層上にコーティングされ露光された感光膜が
形成されたウエーハを前記感光膜の表面が下へ向かうよ
うにウエーハホルダーに装着する段階と、 前記感光膜の表面に現像液噴射装置を利用して現像液を
噴射し前記感光膜と前記現像液を反応させる段階と、 前記現像液と反応された感光膜の表面に洗浄液噴射装置
を利用し洗浄液を噴射する段階を具備し、 前記現像液噴射段階と前記洗浄液噴射段階は前記ウエー
ハが回転する状態で進行されることを特徴とするウエー
ハ上に形成された感光膜の現像方法。
1. A wafer on which a material layer for forming a desired pattern and an exposed photosensitive film coated on the material layer are formed is mounted on a wafer holder such that the surface of the photosensitive film faces downward. A step of injecting a developing solution onto the surface of the photosensitive film using a developing solution spray device to cause the photosensitive film to react with the developing solution; and a cleaning solution spraying device on the surface of the photosensitive film reacted with the developing solution. Injecting a cleaning liquid using the method, wherein the step of injecting the developing liquid and the step of injecting the cleaning liquid are performed while the wafer is rotating, the method of developing a photosensitive film formed on a wafer.
【請求項2】 前記現像液噴射装置と前記洗浄液噴射装
置は同一な噴射装置であることを特徴とする請求項1に
記載のウエーハ上に形成された感光膜の現像方法。
2. The method for developing a photosensitive film formed on a wafer according to claim 1, wherein the developing solution ejecting device and the cleaning solution ejecting device are the same ejecting device.
【請求項3】 前記現像液噴射装置と前記洗浄液噴射装
置は各々異なる噴射装置であることを特徴とする請求項
1に記載のウエーハ上に形成された感光膜の現像方法。
3. The method for developing a photosensitive film formed on a wafer according to claim 1, wherein the developing solution ejecting device and the cleaning solution ejecting device are different from each other.
【請求項4】 前記現像液噴射装置の数は複数であるこ
とを特徴とする請求項1に記載のウエーハ上に形成され
た感光膜の現像方法。
4. The method for developing a photosensitive film formed on a wafer according to claim 1, wherein the number of the developing solution ejecting devices is plural.
【請求項5】 前記洗浄液噴射装置の数は複数であるこ
とを特徴とする請求項1に記載のウエーハ上に形成され
た感光膜の現像方法。
5. The method for developing a photosensitive film formed on a wafer according to claim 1, wherein the number of the cleaning liquid ejecting apparatuses is plural.
【請求項6】 前記現像液噴射装置は前記感光膜の表面
に沿って移動することを特徴とする請求項1に記載のウ
エーハ上に形成された感光膜の現像方法。
6. The method for developing a photosensitive film formed on a wafer according to claim 1, wherein the developer spray device moves along the surface of the photosensitive film.
【請求項7】 前記洗浄液噴射装置は前記感光膜の表面
に沿って移動することを特徴とする請求項1に記載のウ
エーハ上に形成された感光膜の現像方法。
7. The method for developing a photosensitive film formed on a wafer according to claim 1, wherein the cleaning liquid spraying device moves along the surface of the photosensitive film.
【請求項8】 前記現像液の反応時ウエーハに微少な振
動を加えることを特徴とする請求項1に記載のウエーハ
上に形成された感光膜の現像方法。
8. The method for developing a photosensitive film formed on a wafer according to claim 1, wherein a minute vibration is applied to the wafer during the reaction of the developing solution.
【請求項9】 前記ウエーハの回転速度は、前記現像反
応段階で溶解された前記感光膜の微細な粒子と前記洗浄
液及び前記現像液の重力による自重とウエーハの回転運
動による遠心力との力の合成成分の方向が感光膜パター
ンの側壁に対し傾斜した方向になるように調節すること
を特徴とする請求項1に記載のウエーハ上に形成された
感光膜の現像方法。
9. The rotation speed of the wafer is determined by the difference between the weight of the fine particles of the photosensitive film dissolved in the developing reaction step, the weight of the cleaning solution and the developing solution, and the centrifugal force of the rotating motion of the wafer. 2. The method according to claim 1, wherein the direction of the synthesized component is adjusted so as to be inclined with respect to the side wall of the photosensitive film pattern.
【請求項10】 前記現像液反応段階を遂行する前にま
ず前リンス段階をさらに含むことを特徴とする請求項1
に記載のウエーハ上に形成された感光膜の現像方法。
10. The method of claim 1, further comprising a pre-rinsing step before performing the developing solution reaction step.
3. The method for developing a photosensitive film formed on a wafer according to item 2.
JP10154617A 1997-12-19 1998-06-03 Development of photosensitive film formed on wafer Pending JPH11186123A (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
KR1019970070671A KR100269318B1 (en) 1997-12-19 1997-12-19 Method for developing photoresist formed on wafer
KR199770671 1997-12-19

Publications (1)

Publication Number Publication Date
JPH11186123A true JPH11186123A (en) 1999-07-09

Family

ID=19527856

Family Applications (1)

Application Number Title Priority Date Filing Date
JP10154617A Pending JPH11186123A (en) 1997-12-19 1998-06-03 Development of photosensitive film formed on wafer

Country Status (2)

Country Link
JP (1) JPH11186123A (en)
KR (1) KR100269318B1 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SG106643A1 (en) * 2000-10-19 2004-10-29 Laserfront Technologies Inc Method and device for correcting pattern film on a semiconductor substrate
JP2013140881A (en) * 2012-01-05 2013-07-18 Tokyo Electron Ltd Substrate cleaning method, substrate cleaning device and storage medium for substrate cleaning

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100511928B1 (en) * 1998-11-26 2005-10-26 주식회사 하이닉스반도체 How to remove the cleaning liquid

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0391232A (en) * 1989-09-01 1991-04-16 Fujitsu Ltd Developing device
JPH03181118A (en) * 1989-12-11 1991-08-07 Toshiba Corp Developing device for semiconductor wafer

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SG106643A1 (en) * 2000-10-19 2004-10-29 Laserfront Technologies Inc Method and device for correcting pattern film on a semiconductor substrate
US6890387B2 (en) 2000-10-19 2005-05-10 Laserfront Technologies, Inc. Method and device for correcting pattern film on a semiconductor substrate
JP2013140881A (en) * 2012-01-05 2013-07-18 Tokyo Electron Ltd Substrate cleaning method, substrate cleaning device and storage medium for substrate cleaning
US9307653B2 (en) 2012-01-05 2016-04-05 Tokyo Electron Limited Substrate cleaning method, substrate cleaning apparatus and storage medium for cleaning substrate

Also Published As

Publication number Publication date
KR19990051354A (en) 1999-07-05
KR100269318B1 (en) 2000-12-01

Similar Documents

Publication Publication Date Title
US11150558B2 (en) Developing method
JPH10303106A (en) Development processing device and its processing method
KR20070003657A (en) Immersion lithography edege bead removal
US8084194B2 (en) Substrate edge treatment for coater/developer
JPH09298181A (en) Substrate rear surface washer
US6090534A (en) Device and method of decreasing circular defects and charge buildup integrated circuit fabrication
JPH11186123A (en) Development of photosensitive film formed on wafer
JPS5898733A (en) Developing device
JPH07240360A (en) Chemical coating device
US7781140B2 (en) Method of fine pitch bump stripping
JPH08264418A (en) Manufacture of semiconductor integrated circuit device
JPH09244258A (en) Method for developing resist
JPH0669126A (en) Wafer periphery cleaner
JP2000150627A (en) Liquid-applying device
JP3289208B2 (en) Cleaning treatment method and cleaning treatment device
JPH1154427A (en) Method of development in photolithographic process
JPH0554187B2 (en)
KR100644051B1 (en) Coater for photo resist coating on wafer and the removing method for the photoresist remnant by using it
KR100591156B1 (en) Spin coater and method of manufacturing semiconductor device using the same
JPH09260265A (en) Formation of resist pattern
JPH03256321A (en) Resist film forming apparatus
JPH0963946A (en) Substrate rotary type developing device
JPH08264923A (en) Method and device from cleaning end face of substrate
JP3119616B2 (en) Developing device
JPH08330211A (en) Photoresist developing device, device for manufacturing semiconductor integrated circuit device using it, and development treatment method