Field effect transistor using oxide semicondutor and method for manufacturing the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-029/86
H01L-029/10
출원번호
US-0747573
(2008-12-10)
등록번호
US-8384077
(2013-02-26)
우선권정보
JP-2007-321898 (2007-12-13)
국제출원번호
PCT/JP2008/072387
(2008-12-10)
§371/§102 date
20100715
(20100715)
국제공개번호
WO2009/075281
(2009-06-18)
발명자
/ 주소
Yano, Koki
Kawashima, Hirokazu
Inoue, Kazuyoshi
Tomai, Shigekazu
Kasami, Masashi
출원인 / 주소
Idemitsu Kosan Co., Ltd
인용정보
피인용 횟수 :
139인용 특허 :
2
초록▼
A field effect transistor which includes, on a substrate, at least a semiconductor layer, a passivation layer for the semiconductor layer, a source electrode, a drain electrode, a gate insulating film and a gate electrode, the source electrode and the drain electrode being connected through the semi
A field effect transistor which includes, on a substrate, at least a semiconductor layer, a passivation layer for the semiconductor layer, a source electrode, a drain electrode, a gate insulating film and a gate electrode, the source electrode and the drain electrode being connected through the semiconductor layer, the gate insulating film being present between the gate electrode and the semiconductor layer, the passivation layer being at least on one surface side of the semiconductor layer, and the semiconductor layer including a composite oxide which comprises In (indium), Zn (zinc) and Ga (gallium) in the following atomic ratios (1) to (3): In/(In+Zn)=0.2 to 0.8 (1)In/(In+Ga)=0.59 to 0.99 (2)Zn/(Ga+Zn)=0.29 to 0.99 (3).
대표청구항▼
1. A field effect transistor which comprises, on a substrate, at least a semiconductor layer, a passivation layer, a source electrode, a drain electrode, a gate insulating film and a gate electrode, the source electrode and the drain electrode being connected to each other through the semiconductor
1. A field effect transistor which comprises, on a substrate, at least a semiconductor layer, a passivation layer, a source electrode, a drain electrode, a gate insulating film and a gate electrode, the source electrode and the drain electrode being connected to each other through the semiconductor layer,the gate insulating film being present between the gate electrode and the semiconductor layer,the passivation layer being at least on one surface side of the semiconductor layer, andthe semiconductor layer comprising a composite oxide which comprises In (indium), Zn (zinc) and Ga (gallium) in the following atomic ratios (1) to (3): In/(In+Zn)=0.2 to 0.8 (1)In/(In+Ga)=0.59 to 0.99 (2)Zn/(Ga+Zn)=0.29 to 0.99 (3), wherein the semiconductor layer is an amorphous film which has an energy width (E0) on the non-localized level of 14 meV or less. 2. The field effect transistor according to claim 1, wherein the composite oxide further satisfies the following atomic ratio (4): Ga/(In+Zn+Ga)=0.01 to 0.2 (4). 3. The field effect transistor according to claim 1, wherein the semiconductor layer is an amorphous film which keeps at least part of the edge-sharing structure of a bixbyite structure of indium oxide. 4. The field effect transistor according to claim 1, which has a field effect mobility of 1 cm2/Vs or more, an on off ratio of 106 or more, an off current of 1 pA or less, an S value of 0.8 V/dec or less, a threshold voltage of 0 V or more and 10 V or less, and an amount of shift in threshold voltage before and after application of a 10 μA-direct voltage at 50° C. for 100 hours of 1.5 V or less. 5. The field effect transistor according to claim 1, which has a structure for shielding the semiconductor layer from light. 6. The field effect transistor according to claim 1, wherein the passivation layer for the semiconductor layer comprises an amorphous oxide or an amorphous nitride. 7. The field effect transistor according to claim 1, wherein at least one of the source electrode, the drain electrode and the gate electrode comprises an alloy containing copper. 8. The field effect transistor according to claim 1, which further comprises a contact layer between the semiconductor layer and at least one of the source electrode, the drain electrode and the gate electrode. 9. The field effect transistor according to claim 1, which further comprises an oxide resistant layer having a resistance higher than that of the semiconductor layer between the semiconductor layer and the gate insulating film and/or between the semiconductor layer and the passivation layer. 10. The field effect transistor according to claim 1, wherein the semiconductor layer further comprises one or more elements selected from the group consisting of Sn (tin), Ge (germanium), Si (silicon), Ti (titanium), Zr (zirconium) and Hf (hafnium) in an amount of 100 to 10000 atomic ppm. 11. A method for producing the field effect transistor according to claim 1, comprising the steps of forming a semiconductor layer by DC or AC sputtering by using a sintered target of a composite oxide and conducting a heat treatment at 70 to 350° C. after the formation of the semiconductor layer and a passivation layer for the semiconductor layer. 12. A liquid crystal display or an organic electroluminescence display using the field effect transistor according to claim 1.
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