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    • 2. 发明申请
    • Method for producing group III nitride based compound semiconductor device
    • 制备III族氮化物基化合物半导体器件的方法
    • US20070141806A1
    • 2007-06-21
    • US11633619
    • 2006-12-05
    • Toshiya UemuraShigemi Horiuchi
    • Toshiya UemuraShigemi Horiuchi
    • H01L21/30H01L21/46
    • H01L33/40H01L33/32
    • The present invention relates to method for producing a group III nitride based compound semiconductor device. A plurality of group III nitride based compound semiconductor layers are epitaxially grown on a first substrate. An electrode is formed on the uppermost layer of the group III nitride based compound semiconductor layers, the electrode being formed of a first multi-layer including at least a layer for preventing migration of tin contained in a solder. A second multi-layer including at least a layer for preventing migration of tin contained in a solder is formed on a second substrate on which a semiconductor device is to be placed. The surface of the first substrate on which the electrode has been formed is joined to the surface of the second substrate on which the multi-layer has been formed by means of a solder containing at least tin. the first substrate removed from the group III nitride based compound semiconductor layers.
    • 本发明涉及制备III族氮化物基化合物半导体器件的方法。 在第一基板上外延生长多个III族氮化物基化合物半导体层。 在III族氮化物基化合物半导体层的最上层形成电极,该电极由至少包含防止锡中所含锡迁移的第一多层形成。 在其上放置半导体器件的第二基板上形成至少包括用于防止焊料中所含锡迁移的层的多层。 已经形成有电极的第一基板的表面通过至少含有锡的焊料接合到已经形成多层的第二基板的表面上。 从III族氮化物基化合物半导体层去除第一衬底。
    • 3. 发明申请
    • Group III nitride based compound semiconductor device and producing method for the same
    • III族氮化物基化合物半导体器件及其制备方法
    • US20070141753A1
    • 2007-06-21
    • US11633623
    • 2006-12-05
    • Toshiya UemuraShigemi Horiuchi
    • Toshiya UemuraShigemi Horiuchi
    • H01L21/00
    • H01L33/0095H01L21/78
    • The present invention relates to method for producing a group III nitride based compound semiconductor device, including separating the device into individual chips by means of a dicing blade. A portion of an epitaxial layer where a dicing blade is to be positioned is partially or totally removed through etching, to thereby form a trench. An insulating film is formed on the bottom and on the side surfaces of the trench. A wafer is diced into chips in such a manner that the bottom of the trench is removed by means of the dicing blade without completely removing the side surfaces of the insulating film. The insulting film is formed on the side surfaces of the trench such that the film covers a p-type layer to an n-type layer included in group III nitride based compound semiconductor layers so as to prevent short circuit between the p-type layer and the n-type layer.
    • 本发明涉及一种用于制造III族氮化物基化合物半导体器件的方法,包括通过切割刀片将器件分离成单独的芯片。 通过蚀刻部分地或完全地去除其中定位切割刀片的外延层的一部分,从而形成沟槽。 绝缘膜形成在沟槽的底部和侧表面上。 将晶片切成芯片,使得通过切割刀片去除沟槽的底部,而不会完全去除绝缘膜的侧表面。 绝缘膜形成在沟槽的侧表面上,使得膜覆盖p型层到包含在III族氮化物基化合物半导体层中的n型层,以防止p型层和 n型层。
    • 4. 发明授权
    • Light-emitting semiconductor device using group III nitride compound
    • 使用III族氮化物化合物的发光半导体器件
    • US07109529B2
    • 2006-09-19
    • US10864495
    • 2004-06-10
    • Toshiya UemuraShigemi Horiuchi
    • Toshiya UemuraShigemi Horiuchi
    • H01L29/22H01L31/072
    • H01L33/405H01L33/32
    • A flip chip type of light-emitting semiconductor device using group III nitride compound includes a thick positive electrode. The positive electrode, which is made of at least one of silver (Ag), rhodium (Rh), ruthenium (Ru), platinum (Pt) and palladium (Pd), and an alloy including at least one of these metals, is adjacent to a p-type semiconductor layer, and reflect light toward a sapphire substrate. Accordingly, a positive electrode having a high reflectivity and a low contact resistance can be obtained. A first thin-film metal layer, which is made of cobalt (Co) and nickel (Ni), or any combinations of including at least one of these metals, formed between the p-type semiconductor layer and the thick electrode, can improve an adhesion between an contact layer and the thick positive electrode. A thickness of the first thin-film metal electrode should be preferably in the range of 2 Å to 200 Å, more preferably 5 Å to 50 Å. A second thin-film metal layer made of gold (Au) can further improve the adhesion.
    • 使用III族氮化物化合物的倒装芯片型发光半导体器件包括厚的正电极。 由银(Ag),铑(Rh),钌(Ru),铂(Pt)和钯(Pd)中的至少一种以及包含这些金属中的至少一种的合金制成的正极是相邻的 到p型半导体层,并且朝向蓝宝石衬底反射光。 因此,可以获得具有高反射率和低接触电阻的正极。 由p型半导体层和厚电极之间形成的由钴(Co)和镍(Ni)构成的第一薄膜金属层或包含这些金属中的至少一种的任意组合可以改善 接触层与厚正电极之间的粘合。 第一薄膜金属电极的厚度应优选在2埃至200埃的范围内,更优选在5埃至50埃的范围内。 由金(Au)制成的第二薄膜金属层可以进一步提高粘附性。
    • 5. 发明授权
    • Group III nitride compound semiconductor device
    • III族氮化物化合物半导体器件
    • US07095059B2
    • 2006-08-22
    • US10220878
    • 2001-05-06
    • Toshiya UemuraAtsuo HiranoShigemi Horiuchi
    • Toshiya UemuraAtsuo HiranoShigemi Horiuchi
    • H01L33/00
    • H01L33/40H01L29/2003H01L29/452H01L33/32H01L33/38
    • The present invention provides a Group III nitride compound semiconductor device in which the amount of a current allowed to be applied on a p-type pad electrode can be increased.That is, in the Group III nitride compound semiconductor device according to the present invention, a portion of a translucent electrode coming in contact with a circumferential surface of the p-type pad electrode is formed as a thick port ion to thereby increase the area of contact between the circumferential surface and the translucent electrode to thereby increase the current allowed to be applied on the p-type pad electrode. In addition, the use of the thick portion prevents cracking from occuring between the translucent electrode and the circumferential surface of the pad electrode.
    • 本发明提供了可以增加允许施加在p型焊盘电极上的电流量的III族氮化物化合物半导体器件。 也就是说,在根据本发明的III族氮化物化合物半导体器件中,形成与p型焊盘电极的圆周表面接触的透光性电极的一部分作为厚端口离子,从而增加 在圆周表面和透光电极之间接触,从而增加允许施加在p型焊盘电极上的电流。 此外,使用厚壁部可防止在透光性电极与焊盘电极的周面之间发生龟裂。
    • 7. 发明授权
    • Electrode and Group III nitride-based compound semiconductor light-emitting device having the electrode
    • 具有电极的电极和III族氮化物系化合物半导体发光元件
    • US07646036B2
    • 2010-01-12
    • US12068247
    • 2008-02-04
    • Takahiro KozawaKazuyoshi TomitaToshiya UemuraShigemi Horiuchi
    • Takahiro KozawaKazuyoshi TomitaToshiya UemuraShigemi Horiuchi
    • H01L33/00
    • H01L33/405H01L33/32H01L33/42
    • An object of the invention is to prevent migration of silver contained in an electrode of a Group III nitride-based compound semiconductor light-emitting device. A positive electrode is formed on a p-type layer. In the positive electrode, an ITO light-transmitting electrode layer, a silver alloy reflecting electrode layer, a diffusion-preventing layer in which a Ti layer and a Pt layer are stacked, and a gold thick-film electrode are sequentially stacked on the p-type layer. The reflecting electrode layer made of a silver alloy contains palladium (Pd) and copper (Cu) as additives and also contains oxygen (O). By virtue of this structure, migration of silver from the silver alloy reflecting electrode layer and blackening of the interface between the silver alloy layer and the ITO light-transmitting electrode layer disposed thereunder are prevented, whereby light extraction efficiency can be enhanced.
    • 本发明的目的是防止在III族氮化物系化合物半导体发光元件的电极中含有的银的迁移。 正电极形成在p型层上。 在正极中,将ITO透光电极层,银合金反射电极层,层叠有Ti层和Pt层的扩散防止层和金厚膜电极依次层叠在p 型层。 由银合金制成的反射电极层包含钯(Pd)和铜(Cu)作为添加剂,并且还含有氧(O)。 由于这种结构,防止银从银合金反射电极层的迁移以及布置在其上的银合金层和ITO透光电极层之间的界面变黑,从而可以提高光提取效率。
    • 8. 发明授权
    • Method for producing semiconductor device
    • 半导体器件的制造方法
    • US07541262B2
    • 2009-06-02
    • US11633622
    • 2006-12-05
    • Masanobu AndoToshiya UemuraShigemi Horiuchi
    • Masanobu AndoToshiya UemuraShigemi Horiuchi
    • H01L21/30
    • H01L33/0079H01L33/32H01L33/38H01L33/40
    • The present invention contemplates preventing clogging of a dicer for forming separation trenches in a semiconductor wafer, and as well improving the yield of a semiconductor device cut out of the semiconductor wafer. A second adhesive to be charged into spaces contains an epoxy material as a base material. Silica filler particles (diameter: about 2 to about 4 μm) are added to the base material in an appropriate amount. Charging of the second adhesive may be performed by adding the adhesive dropwise to a side wall of a semiconductor wafer, or by immersing an edge of the semiconductor wafer in the adhesive in the form of liquid. When a liquid-form epoxy material of low viscosity is employed, the spaces can be evenly filled with the second adhesive by capillary action. An n-electrode is formed on an exposed surface of an n-type layer through vapor deposition employing a resist mask. Separation trenches are formed through half-cut dicing from the exposed surface of the n-type layer toward the second adhesive.
    • 本发明考虑防止用于在半导体晶片中形成分离沟槽的切割机的堵塞,并且还提高从半导体晶片切出的半导体器件的产量。 要填充到空间中的第二粘合剂包含环氧树脂材料作为基材。 将二氧化硅填料颗粒(直径:约2至约4μm)以适当的量加入到基材中。 第二粘合剂的充电可以通过将粘合剂滴加到半导体晶片的侧壁,或者通过将半导体晶片的边缘以液体的形式浸入粘合剂中来进行。 当使用低粘度的液态环氧材料时,可以通过毛细作用将间隙均匀地填充第二粘合剂。 通过使用抗蚀剂掩模的气相沉积在n型层的暴露表面上形成n电极。 通过从n型层的暴露表面朝向第二粘合剂的半切割切割形成分离沟槽。