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1.发明授权公开(公告)号:US08796097B2
公开(公告)日:2014-08-05
申请号:US13870558
申请日:2013-04-25
申请人: Asif Khan , Qhalid Fareed , Vinod Adivarahan
发明人: Asif Khan , Qhalid Fareed , Vinod Adivarahan
IPC分类号: H01L21/336 , H01L29/778 , H01L29/78 , H01L29/66
CPC分类号: H01L29/7787 , H01L23/3171 , H01L29/155 , H01L29/2003 , H01L29/205 , H01L29/402 , H01L29/66431 , H01L29/66462 , H01L29/6659 , H01L29/778 , H01L29/7783 , H01L29/7848 , H01L2924/0002 , H01L2924/00
摘要: Methods for forming a HEMT device are provided. The method includes forming an ultra-thin barrier layer on the plurality of thin film layers. A dielectric thin film layer is formed over a portion of the ultra-thin barrier layer to leave exposed areas of the ultra-thin barrier layer. A SAG S-D thin film layer is formed over the exposed areas of the ultra-thin barrier layer while leaving the dielectric thin film layer exposed. The dielectric thin film layer is then removed to expose the underlying ultra-thin barrier layer. The underlying ultra-thin barrier layer is treating with fluorine to form a treated area. A source and drain is added on the SAG S-D thin film layer, and a dielectric coating is deposited over the ultra-thin barrier layer treated with fluorine such that the dielectric coating is positioned between the source and the drain.
摘要翻译: 提供了形成HEMT器件的方法。 该方法包括在多个薄膜层上形成超薄势垒层。 在超薄阻挡层的一部分上形成电介质薄膜层以留下超薄势垒层的暴露区域。 在超薄阻挡层的暴露区域上形成SAG S-D薄膜层,同时露出电介质薄膜层。 然后去除电介质薄膜层以暴露下面的超薄势垒层。 用氟处理下面的超薄阻挡层以形成处理区域。 在SAG S-D薄膜层上添加源极和漏极,并且在用氟处理的超薄势垒层上沉积电介质涂层,使得介电涂层位于源极和漏极之间。
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公开(公告)号:US20130017689A1
公开(公告)日:2013-01-17
申请号:US11800712
申请日:2007-05-07
申请人: Asif Khan , Vinod Adivarahan
发明人: Asif Khan , Vinod Adivarahan
IPC分类号: H01L21/316
CPC分类号: H01L21/02164 , H01L21/0214 , H01L21/0217 , H01L21/02211 , H01L21/02274 , H01L21/0228 , H01L21/28264 , H01L29/2003 , H01L29/517 , H01L29/518
摘要: Novel silicon dioxide and silicon nitride deposition methods are generally disclosed. In one embodiment, the method includes depositing silicon on the surface of a substrate having a temperature of between about 65° C. and about 350° C. The heated substrate is exposed to a silicon source that is substantially free from an oxidizing agent. The silicon on the surface is then oxidized with an oxygen source that is substantially free from a silicon source. As a result of oxidizing the silicon, a silicon oxide layer forms on the surface of the substrate. Alternatively, or in additionally, a nitrogen source can be provided to produce silicon nitride on the surface of the substrate.
摘要翻译: 通常公开了新的二氧化硅和氮化硅沉积方法。 在一个实施例中,该方法包括在温度在约65℃至约350℃之间的衬底的表面上沉积硅。将加热的衬底暴露于基本上不含氧化剂的硅源。 然后用基本上不含硅源的氧源氧化表面上的硅。 作为氧化硅的结果,在衬底的表面上形成氧化硅层。 或者,或另外,可以提供氮源以在衬底的表面上产生氮化硅。
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3.发明申请MULTILAYER BARRIER III-NITRIDE TRANSISTOR FOR HIGH VOLTAGE ELECTRONICS 有权用于高压电子的多层氮化物III-NITRIDE晶体管公开(公告)号:US20110108887A1
公开(公告)日:2011-05-12
申请号:US12941332
申请日:2010-11-08
申请人: Qhalid Fareed , Vinod Adivarahan , Asif Khan
发明人: Qhalid Fareed , Vinod Adivarahan , Asif Khan
IPC分类号: H01L29/778 , H01L21/335
CPC分类号: H01L29/7787 , H01L29/2003 , H01L29/201 , H01L29/66462
摘要: An improved high breakdown voltage semiconductor device and method for manufacturing is provided. The device has a substrate and a AlaGa1-aN layer on the substrate wherein 0.1≦a≦1.00. A GaN layer is on the AlaGa1-aN layer. An In1-bGabN/GaN channel layer is on the GaN layer wherein 0.1≦b≦1.00. A AlcIndGa1-c-dN spacer layer is on the In1-bGabN/GaN layer wherein 0.1≦c≦1.00 and 0.0≦d≦0.99. A AleIn1-eN nested superlattice barrier layer is on the AlcIndGa1-c-dN spacer layer wherein 0.10≦e≦0.99. A AlfIngGa1-f-gN leakage suppression layer is on the AleIn1-eN barrier layer wherein 0.1≦f≦0.99 and 0.1≦g≦0.99 wherein the leakage suppression layer decreases leakage current and increases breakdown voltage during high voltage operation. A superstructure, preferably with metallic electrodes, is on the AlfIngGa1-f-gN leakage suppression layer.
摘要翻译: 提供了一种改进的高击穿电压半导体器件及其制造方法。 该器件在衬底上具有衬底和AlaGa1-aN层,其中0.1< 1; a≦̸ 1.00。 Ala层在AlaGa1-aN层上。 In 1-bGabN / GaN沟道层位于GaN层上,其中0.1< 1; b≦̸ 1.00。 AlcIndGa1-c-dN间隔层位于In1-bGabN / GaN层上,其中0.1& NlE; c≦̸ 1.00和0.0& nlE; d≦̸ 0.99。 AlInInGa1-c-dN间隔层上的AleIn1-eN嵌层超晶格势垒层,其中0.10< 1Ee; e≦̸ 0.99。 AlInInGaGa1-f-gN泄漏抑制层位于AleIn1-eN阻挡层上,其中0.1≦̸ f≦̸ 0.99和0.1≦̸ g≦̸ 0.99,其中泄漏抑制层降低泄漏电流并增加高压操作期间的击穿电压。 在AlfIngGa1-f-gN泄漏抑制层上,优选具有金属电极的上层结构。
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公开(公告)号:US20100264401A1
公开(公告)日:2010-10-21
申请号:US12673476
申请日:2008-08-13
申请人: Vinod Adivarahan , Asif Khan , Rubina Khan
发明人: Vinod Adivarahan , Asif Khan , Rubina Khan
CPC分类号: H01L33/32 , H01L27/156 , H01L33/12
摘要: An ultra-violet light-emitting diode (LED) array, 12, and method for fabricating same with an AlInGaN multiple-quantum-well active region, 500, exhibiting stable cw-powers. The LED includes a template, 10, with an ultraviolet light-emitting array structure on it. The template includes a first buffer layer, 321, then a second buffer layer, 421, on the first preferably with a strain-relieving layer in both buffer layers. Next there is a semiconductor layer having a first type of conductivity, 500, followed by a layer providing a quantum-well region, 600, with an emission spectrum ranging from 190 nm to 369 nm. Another semiconductor layer having a second type of conductivity is applied next, 800. A first metal contact, 980, is a charge spreading layer in electrical contact with the first layer and between the array of LED's. A second contact, 990, is applied to the semiconductor layer having the second type of conductivity, to complete the LED.
摘要翻译: 一种紫外发光二极管(LED)阵列12及其制造方法,具有稳定的cw功率的AlInGaN多量子阱有源区500。 LED包括一个具有紫外发光阵列结构的模板10。 模板包括第一缓冲层321,然后第二缓冲层421,优选地在两个缓冲层中具有应变消除层。 接下来,存在具有第一类型导电性的半导体层500,随后是提供量子阱区域的层600,发射光谱范围为190nm至369nm。 接下来施加另一种具有第二类导电性的半导体层,800.第一金属触点980是与第一层电连接并在LED阵列之间的电荷扩散层。 第二触点990被施加到具有第二类导电性的半导体层,以完成LED。
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公开(公告)号:US09331240B2
公开(公告)日:2016-05-03
申请号:US12480304
申请日:2009-06-08
申请人: M. Asif Khan , Qhalid Fareed , Vinod Adivarahan
发明人: M. Asif Khan , Qhalid Fareed , Vinod Adivarahan
CPC分类号: H01L33/12 , H01L21/0242 , H01L21/0243 , H01L21/02458 , H01L21/0254 , H01L21/0262 , H01L21/02647 , H01L33/007 , H01L33/06 , H01L33/20 , H01L33/22 , H01L33/32
摘要: An ultraviolet light emitting semiconductor chip, its use in a LED, and methods of its fabrication are disclosed. The semiconductor chip can include a buffer layer of AlxGa1-xN, where 0
摘要翻译: 公开了一种紫外光发射半导体芯片,其在LED中的应用及其制造方法。 该半导体芯片可以包括Al x Ga 1-x N的缓冲层,其中0
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6.发明授权公开(公告)号:US08541817B2
公开(公告)日:2013-09-24
申请号:US12941332
申请日:2010-11-08
申请人: Qhalid Fareed , Vinod Adivarahan , Asif Khan
发明人: Qhalid Fareed , Vinod Adivarahan , Asif Khan
IPC分类号: H01L29/66
CPC分类号: H01L29/7787 , H01L29/2003 , H01L29/201 , H01L29/66462
摘要: An improved high breakdown voltage semiconductor device and method for manufacturing is provided. The device has a substrate and a AlaGa1-aN layer on the substrate wherein 0.1≦a≦1.00. A GaN layer is on the AlaGa1-aN layer. An In1-bGabN/GaN channel layer is on the GaN layer wherein 0.1≦b≦1.00. A AlcIndGa1-c-dN spacer layer is on the In1-bGabN/GaN layer wherein 0.1≦c≦1.00 and 0.0≦d≦0.99. A AleIn1-eN nested superlattice barrier layer is on the AlcIndGa1-c-dN spacer layer wherein 0.10≦e≦0.99. A AlfIngGa1-f-gN leakage suppression layer is on the AleIn1-eN barrier layer wherein 0.1≦f≦0.99 and 0.1≦g≦0.99 wherein the leakage suppression layer decreases leakage current and increases breakdown voltage during high voltage operation. A superstructure, preferably with metallic electrodes, is on the AlfIngGa1-f-gN leakage suppression layer.
摘要翻译: 提供了一种改进的高击穿电压半导体器件及其制造方法。 该器件在衬底上具有衬底和AlaGa1-aN层,其中0.1 @ a @ 1.00。 Ala层在AlaGa1-aN层上。 In 1-bGabN / GaN沟道层位于GaN层上,其中0.1 @ b @ 1.00。 AlcIndGa1-c-dN间隔层位于In1-bGabN / GaN层上,其中0.1 @ c @ 1.00和0.0 @ d @ 0.99。 AlInInGa1-c-dN间隔层上的AleIn1-eN嵌层超晶格势垒层,其中0.10 @ e @ 0.99。 AlInInGaGa1-f-gN泄漏抑制层位于AleIn1-eN阻挡层上,其中0.1 @ f @ 0.99和0.1 @ g @ 0.99,其中泄漏抑制层降低泄漏电流并增加高电压操作期间的击穿电压。 在AlfIngGa1-f-gN泄漏抑制层上,优选具有金属电极的上层结构。
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公开(公告)号:US08318562B2
公开(公告)日:2012-11-27
申请号:US12061358
申请日:2008-04-02
IPC分类号: H01L21/336
CPC分类号: H01L29/7787 , H01L29/2003 , H01L29/66462
摘要: Methods of achieving high breakdown voltages in semiconductor devices by suppressing the surface flashover using high dielectric strength insulating encapsulation material are generally described. In one embodiment of the present invention, surface flashover in AlGaN/GaN heterostructure field-effect transistors (HFETs) is suppressed by using high dielectric strength insulating encapsulation material. Surface flashover in as-fabricated III-Nitride based HFETs limits the operating voltages at levels well below the breakdown voltages of GaN.
摘要翻译: 一般来说,通过使用高介电强度绝缘包封材料抑制表面闪络来实现半导体器件中的高击穿电压的方法。 在本发明的一个实施例中,通过使用高介电强度绝缘封装材料来抑制AlGaN / GaN异质结构场效应晶体管(HFET)中的表面闪络。 基于III-Nitride的HFET的表面闪络将工作电压限制在远低于GaN击穿电压的水平。
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公开(公告)号:US20110073838A1
公开(公告)日:2011-03-31
申请号:US12997240
申请日:2009-06-06
申请人: Asif Khan , Vinod Adivarahan , Qhalid Fareed
发明人: Asif Khan , Vinod Adivarahan , Qhalid Fareed
IPC分类号: H01L33/06
CPC分类号: H01L33/32 , H01L27/153 , H01L33/62 , H01L2924/0002 , H01L2924/00
摘要: Ultraviolet light emitting illuminator, and method for fabricating same, comprises an array of ultraviolet light emitting diodes and a first and a second terminal. When an alternating current is applied across the first and second terminals and thus to each of the diodes, the illuminator emits ultraviolet light at a frequency corresponding to that of the alternating current. The illuminator includes a template with ultraviolet light emitting quantum wells, a first buffer layer with a first type of conductivity and a second buffer layer with a second type of conductivity, all deposited preferably over a strain-relieving layer. A first and second metal contact are applied to the semiconductor layers having the first and second type of conductivity, respectively, to complete the LED. The emission spectrum ranges from 190 nm to 369 nm. The illuminator may be configured in various materials, geometries, sizes and designs.
摘要翻译: 紫外线发光照明器及其制造方法包括紫外发光二极管阵列和第一和第二终端阵列。 当跨越第一和第二端子以及因此施加到每个二极管的交流电时,照明器以与交流电流相对应的频率发射紫外光。 照明器包括具有紫外光发射量子阱的模板,具有第一类型导电性的第一缓冲层和具有第二导电类型的第二缓冲层,所有这些均优选沉积在应变消除层上。 将第一和第二金属接触分别施加到具有第一和第二导电类型的半导体层以完成LED。 发射光谱范围为190nm至369nm。 照明器可以被配置成各种材料,几何形状,尺寸和设计。
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公开(公告)号:US20090090984A1
公开(公告)日:2009-04-09
申请号:US12061358
申请日:2008-04-02
CPC分类号: H01L29/7787 , H01L29/2003 , H01L29/66462
摘要: Methods of achieving high breakdown voltages in semiconductor devices by suppressing the surface flashover using high dielectric strength insulating encapsulation material are generally described. In one embodiment of the present invention, surface flashover in AlGaN/GaN heterostructure field-effect transistors (HFETs) is suppressed by using high dielectric strength insulating encapsulation material. Surface flashover in as-fabricated III-Nitride based HFETs limits the operating voltages at levels well below the breakdown voltages of GaN.
摘要翻译: 一般来说,通过使用高介电强度绝缘包封材料抑制表面闪络来实现半导体器件中的高击穿电压的方法。 在本发明的一个实施例中,通过使用高介电强度绝缘封装材料来抑制AlGaN / GaN异质结构场效应晶体管(HFET)中的表面闪络。 基于III-Nitride的HFET的表面闪络将工作电压限制在远低于GaN击穿电压的水平。
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10.发明授权公开(公告)号:US09343563B2
公开(公告)日:2016-05-17
申请号:US14450592
申请日:2014-08-04
申请人: Asif Khan , Qhalid Fareed , Vinod Adivarahan
发明人: Asif Khan , Qhalid Fareed , Vinod Adivarahan
IPC分类号: H01L29/778 , H01L23/31 , H01L31/00 , H01L29/66 , H01L29/40 , H01L29/15 , H01L29/20 , H01L29/78 , H01L29/205
CPC分类号: H01L29/7787 , H01L23/3171 , H01L29/155 , H01L29/2003 , H01L29/205 , H01L29/402 , H01L29/66431 , H01L29/66462 , H01L29/6659 , H01L29/778 , H01L29/7783 , H01L29/7848 , H01L2924/0002 , H01L2924/00
摘要: Methods for forming a HEMT device are provided. The method includes forming an ultra-thin barrier layer on the plurality of thin film layers. A dielectric thin film layer is formed over a portion of the ultra-thin barrier layer to leave exposed areas of the ultra-thin barrier layer. A SAG S-D thin film layer is formed over the exposed areas of the ultra-thin barrier layer while leaving the dielectric thin film layer exposed. The dielectric thin film layer is then removed to expose the underlying ultra-thin barrier layer. The underlying ultra-thin barrier layer is treating with fluorine to form a treated area. A source and drain is added on the SAG S-D thin film layer, and a dielectric coating is deposited over the ultra-thin barrier layer treated with fluorine such that the dielectric coating is positioned between the source and the drain.
摘要翻译: 提供了形成HEMT器件的方法。 该方法包括在多个薄膜层上形成超薄势垒层。 在超薄阻挡层的一部分上形成电介质薄膜层以留下超薄势垒层的暴露区域。 在超薄阻挡层的暴露区域上形成SAG S-D薄膜层,同时露出电介质薄膜层。 然后去除电介质薄膜层以暴露下面的超薄势垒层。 下面的超薄阻挡层用氟处理以形成处理区域。 在SAG S-D薄膜层上添加源极和漏极,并且在用氟处理的超薄势垒层上沉积电介质涂层,使得介电涂层位于源极和漏极之间。
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