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    • 2. 发明申请
    • NITRIDE SEMICONDUCTOR DEVICE
    • 氮化物半导体器件
    • US20110186815A1
    • 2011-08-04
    • US13083990
    • 2011-04-11
    • Soo Min LEEHee Seok ParkJae Woong HanSeong Suk LeeCheol Soo Sone
    • Soo Min LEEHee Seok ParkJae Woong HanSeong Suk LeeCheol Soo Sone
    • H01L29/15
    • H01L33/32B82Y10/00B82Y20/00H01L33/06
    • There is provided a nitride semiconductor device including: an n-type nitride semiconductor layer; a p-type nitride semiconductor layer; and an active layer formed between the n-type and p-type nitride semiconductor layers, the active layer including a plurality of quantum well layers and at least one quantum barrier layer deposited alternately with each other, wherein the active layer includes a first quantum well layer, a second quantum well layer formed adjacent to the first quantum well layer toward the p-type nitride semiconductor layer and having a quantum level higher than a quantum level of the first quantum well layer, and a tunneling quantum barrier layer formed between the first and second quantum well layers and having a thickness enabling a carrier to be tunneled therethrough.
    • 提供了一种氮化物半导体器件,包括:n型氮化物半导体层; p型氮化物半导体层; 以及形成在所述n型和p型氮化物半导体层之间的有源层,所述有源层包括彼此交替沉积的多个量子阱层和至少一个量子势垒层,其中所述有源层包括第一量子阱 层,与第一量子阱层相邻形成朝向p型氮化物半导体层并且具有高于第一量子阱层的量子级的量子级的第二量子阱层,以及形成在第一量子阱层之间的隧穿量子势垒层 和第二量子阱层,并且具有能够使载体穿过其的厚度。
    • 9. 发明授权
    • Method of manufacturing a silicon/silicon germanium heterojunction
bipolar transistor
    • 制造硅/硅锗异质结双极晶体管的方法
    • US5897359A
    • 1999-04-27
    • US987474
    • 1997-12-09
    • Deok Ho ChoSoo Min LeeTae Hyeon HanByung Ryul RyumKwang Eui Pyun
    • Deok Ho ChoSoo Min LeeTae Hyeon HanByung Ryul RyumKwang Eui Pyun
    • H01L29/74H01L21/331H01L29/737H01L21/8222
    • H01L29/66242H01L29/7378
    • There is disclosed a method of manufacturing a silicon/silicon germanium heterojunction bipolar transistor having a good conformity and an improved speed characteristic, which includes the steps of sequentially laminating an underlying nitride film, an oxide film, a polycrystalline silicon film and an upper nitride on a semiconductor substrate on which devices are separated and a collector is formed; sequentially etching said upper nitride film and said polycrystalline silicon film using the emitter as a mask, and then forming a side wall nitride film; selectively wet-etching said oxide film to form a side base linker opening; burying said base linker opening with a polycrystalline silicon; oxidizing said polycrystalline silicon film buried into said base linker opening and then removing said oxide film by means of the selective wet-etch process; removing said upper nitride and then forming a silicon/silicon germanium film as a base film on the exposed thereof; and forming an emitter said silicon/silicon germanium film.
    • 公开了一种制造具有良好一致性和改进的速度特性的硅/硅锗异质结双极晶体管的方法,其包括以下步骤:将下面的氮化物膜,氧化物膜,多晶硅膜和上部氮化物依次层压在 半导体衬底,器件分离并形成集电极; 使用发射极作为掩模,依次蚀刻所述上部氮化物膜和所述多晶硅膜,然后形成侧壁氮化物膜; 选择性地湿蚀刻所述氧化膜以形成侧基连接器开口; 用多晶硅掩埋所述基底连接器开口; 氧化所述多晶硅膜,所述多晶硅膜埋入所述基底连接器开口中,然后通过选择性湿蚀刻工艺除去所述氧化物膜; 去除所述上部氮化物,然后在其暴露时形成硅/硅锗膜作为基膜; 以及形成所述硅/硅锗膜的发射极。
    • 10. 发明授权
    • Method for fabricating hetero-junction bipolar transistor having reduced
base parasitic resistance
    • 具有降低的基极寄生电阻的异质结双极晶体管的制造方法
    • US5459084A
    • 1995-10-17
    • US358533
    • 1994-12-19
    • Byung-Ryul RyumDeok-Ho ChoTae-Hyeon HanSoo-Min LeeOh-Joon Kwon
    • Byung-Ryul RyumDeok-Ho ChoTae-Hyeon HanSoo-Min LeeOh-Joon Kwon
    • H01L21/331H01L29/737H01L21/265
    • H01L29/66242H01L29/7378Y10S148/01Y10S148/011Y10S148/072
    • Disclosed is a fabrication of a hetero-junction bipolar transistor in which a base parasitic capacitance is fully reduced by using a metallic silicide as a base, comprising the steps of injecting an impurity in a silicon substrate to form a conductive buried collector region; growing a collector epitaxial layer on the buried collector region and forming a field oxide layer; selectively injecting an impurity into the collector epitaxial layer to form a collector sinker; sequentially forming a base layer and an first oxide layer thereon; patterning the first oxide layer to define an extrinsic base region; ion-implanting an impurity in the extrinsic base region using a patterned oxide layer as a mask and removing the patterned oxide layer; depositing a metallic silicide film thereon to form a base electrode thin film; forming a capping oxide layer of about 500 .ANG. thickness only on the base electrode thin film; forming an isolating oxide layer thereon and sequentially and selectively removing the isolating oxide layer, the capping oxide layer, the base electrode thin film and the base layer using a patterned photomask to form a pattern, the isolating oxide layer being provided to electrically isolate base and emitter; forming a side wall oxide layer at both side edges of the pattern; removing a portion of the isolating oxide layer to define an emitter region; forming a passivation layer thereon and selectively removing the passivation layer to form contact holes; and depositing a polysilicon layer doped with impurity ions in the contact holes to form electrodes.
    • 公开了通过使用金属硅化物作为基底而使基极寄生电容完全降低的异质结双极晶体管的制造方法,包括以下步骤:在硅衬底中注入杂质以形成导电的埋地集电区; 在掩埋的集电极区上生长集电极外延层并形成场氧化物层; 选择性地将杂质注入到集电极外延层中以形成集电极沉降片; 在其上依次形成基底层和第一氧化物层; 图案化第一氧化物层以限定外部碱性区域; 使用图案化氧化物层作为掩模在外部基极区域中离子注入杂质并除去图案化的氧化物层; 在其上沉积金属硅化物膜以形成基极薄膜; 仅在基极薄膜上形成约500厚度的覆盖氧化物层; 在其上形成隔离氧化物层,并使用图案化的光掩模依次选择性地去除隔离氧化物层,封盖氧化物层,基极薄膜和基层,形成图案,隔离氧化物层被提供以电隔离基极和 发射器 在图案的两个侧边缘处形成侧壁氧化物层; 去除所述隔离氧化物层的一部分以限定发射极区域; 在其上形成钝化层并选择性地去除钝化层以形成接触孔; 以及在所述接触孔中沉积掺杂有杂质离子的多晶硅层以形成电极。