Capacitor and method for fabricating the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-021/8242
H01L-021/70
출원번호
US-0117328
(2005-04-29)
등록번호
US-7413949
(2008-08-19)
우선권정보
JP-2002-198125(2002-07-08)
발명자
/ 주소
Mikawa,Takumi
Judai,Yuji
Hayashi,Shinichiro
출원인 / 주소
Matsushita Electric Industrial Co., Ltd.
대리인 / 주소
McDermott Will & Emery LLP
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A capacitor is formed on an interlayer insulating film formed on a semiconductor substrate. The capacitor includes a bottom electrode made of platinum, a capacitor insulating film made of SrTaBiO (SBT) containing an element absorbing hydrogen such as titanium, for example, in grain boundaries, inter
A capacitor is formed on an interlayer insulating film formed on a semiconductor substrate. The capacitor includes a bottom electrode made of platinum, a capacitor insulating film made of SrTaBiO (SBT) containing an element absorbing hydrogen such as titanium, for example, in grain boundaries, inter-lattice positions or holes, and a top electrode made of platinum.
대표청구항▼
What is claimed is: 1. A method for fabricating a capacitor, comprising the steps of: forming a laminated structure on a semiconductor substrate, the laminated structure including a bottom electrode, a capacitor insulating film formed on the bottom electrode, and a top electrode formed on the capac
What is claimed is: 1. A method for fabricating a capacitor, comprising the steps of: forming a laminated structure on a semiconductor substrate, the laminated structure including a bottom electrode, a capacitor insulating film formed on the bottom electrode, and a top electrode formed on the capacitor insulating film, the capacitor insulating film being composed of a ferroelectric film or a high dielectric constant film containing an element absorbing hydrogen; and subjecting the capacitor insulating film to heat treatment to crystallize the ferroelectric film or the high dielectric constant film and place the element absorbing hydrogen in grain boundaries, inter-lattice positions or holes of the ferroelectric film or the high dielectric constant films, wherein the element absorbing hydrogen is a different element from an element constituting the ferroelectric film or the high dielectric constant film. 2. The method of claim 1, further comprising the step of forming a hydrogen barrier layer covering at least part of the laminated structure including the bottom electrode, the capacitor insulating film and the top electrode. 3. A method for fabricating a capacitor, comprising the steps of: forming a bottom electrode or a first conductive film from which a bottom electrode is formed on a semiconductor substrate and then depositing a ferroelectric film or a high dielectric constant film containing an element absorbing hydrogen on the bottom electrode or the first conductive film; subjecting the ferroelectric film or high dielectric constant film to heat treatment to crystallize the ferroelectric film or the high dielectric constant film and place the element absorbing hydrogen in grain boundaries, inter-lattice positions or holes of the ferroelectric film or the high dielectric constant film; depositing a second conductive film on the crystallized ferroelectric film or high dielectric constant film; forming a top electrode by patterning the second conductive film; and forming a capacitor insulating film by patterning the crystallized ferroelectric film or high dielectric constant film, wherein the element absorbing hydrogen is a different element from an element constituting the ferroelectric film or the high dielectric constant film. 4. The method of claim 3, further comprising the step of forming a hydrogen barrier layer covering at least part of the laminated structure including the bottom electrode, the capacitor insulating film and the top electrode. 5. A method for fabricating a capacitor, comprising the steps of: forming a bottom electrode or a first conductive film from which a bottom electrode is formed on a semiconductor substrate and depositing a ferroelectric film or a high dielectric constant film containing an element absorbing hydrogen on the bottom electrode or the first conductive film; depositing a second conductive film on the ferroelectric film or the high dielectric constant film; subjecting the ferroelectric film or high dielectric constant film to heat treatment to crystallize the ferroelectric film or the high dielectric constant film and place the element absorbing hydrogen in grain boundaries, inter-lattice positions or holes of the ferroelectric film or the high dielectric constant film; forming a top electrode by patterning the second conductive film; and forming a capacitor insulating film by patterning the crystallized ferroelectric film or high dielectric constant film, wherein the element absorbing hydrogen is a different element from an element constituting the ferroelectric film or the high dielectric constant film. 6. The method of claim 5, further comprising the step of forming a hydrogen barrier layer covering at least part of the laminated structure including the bottom electrode, the capacitor insulating film and the top electrode. 7. A method for fabricating a capacitor, comprising the steps of: forming a bottom electrode or a first conductive film from which a bottom electrode is formed on a semiconductor substrate and depositing a ferroelectric film or a high dielectric constant film containing an element absorbing hydrogen on the bottom electrode or the first conductive film; subjecting the ferroelectric film or high dielectric constant film to heat treatment to crystallize the ferroelectric film or the high dielectric constant film and place the element absorbing hydrogen in grain boundaries, inter-lattice positions or holes of the ferroelectric film or the high dielectric constant film; forming a capacitor insulating film by patterning the crystallized ferroelectric film or high dielectric constant film; depositing a second conductive film on the capacitor insulating film; and forming a top electrode by patterning the second conductive film, wherein the element absorbing hydrogen is a different element from an element constituting the ferroelectric film or the high dielectric constant film. 8. The method of claim 7, further comprising the step of forming a hydrogen barrier layer covering at least part of the laminated structure including the bottom electrode, the capacitor insulating film and the top electrode. 9. A method for fabricating a capacitor, comprising the steps of: forming a bottom electrode or a first conductive film from which a bottom electrode is formed on a semiconductor substrate and depositing a ferroelectric film or a high dielectric constant film containing an element absorbing hydrogen on the bottom electrode or the first conductive film; forming a capacitor insulating film by patterning the ferroelectric film or the high dielectric constant film; subjecting the ferroelectric film or high dielectric constant film to heat treatment to crystallize the ferroelectric film or the high dielectric constant film and place the element absorbing hydrogen in grain boundaries, inter-lattice positions or holes of the ferroelectric film or the high dielectric constant film; depositing a second conductive film on the capacitor insulating film as the crystallized ferroelectric film or high dielectric constant film; and forming a top electrode by patterning the second conductive film, wherein the element absorbing hydrogen is a different element from an element constituting the ferroelectric film or the high dielectric constant film. 10. The method of claim 9, further comprising the step of forming a hydrogen barrier layer covering at least part of the laminated structure including the bottom electrode, the capacitor insulating film and the top electrode.
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이 특허에 인용된 특허 (5)
Kirlin Peter S., Ferroelectric capacitor and integrated circuit device comprising same.
Cuchiaro Joseph D. ; Furuya Akira,JPX ; Paz de Araujo Carlos A. ; Miyasaka Yoichi,JPX, Ferroelectric integrated circuit having low sensitivity to hydrogen exposure and method for fabricating same.
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