CN104979458B - 半导体装置 - Google Patents
半导体装置 Download PDFInfo
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- CN104979458B CN104979458B CN201510172587.9A CN201510172587A CN104979458B CN 104979458 B CN104979458 B CN 104979458B CN 201510172587 A CN201510172587 A CN 201510172587A CN 104979458 B CN104979458 B CN 104979458B
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Images
Classifications
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Abstract
本发明的课题是提供一种抑制了将半导体元件粘接于基体的粘接材料的润湿扩展的半导体装置。本发明的解决方法是一种半导体装置(100),其是通过粘接材料(30)使半导体元件(20)粘接在基体(10)上而成的半导体装置,其特征在于,上述粘接材料(30)含有经表面处理后的粒子(40)或与分散剂共存的粒子(40),上述粘接材料的边缘部(301)的至少一部分是上述粒子(40)偏在的区域。
Description
技术领域
本发明涉及半导体装置。
背景技术
以往,存在有使用装片(die bonding)材料将发光二极管元件接合于基板的上表面而成的光半导体装置(例如参照专利文献1)。
现有技术文献
专利文献
专利文献1:日本特开2012-077171号公报
专利文献2:日本特开2004-214338号公报
非专利文献
非专利文献1:BM.Weon,JH.Je,Self-Pinning by Colloids Confined at aContact Line,Phys.Rev.Lett.110,028303(2013)
发明内容
发明所要解决的问题
但是,这种光半导体装置存在如下问题:由于装片材料的润湿扩展(包括通常被称为“渗出(bleed out)”的现象),基板的上表面被污染,对引线键合(wire bonding)和/或装片带来障碍。
例如专利文献2中记载了可以通过在引线电极的表面形成槽部来解决这样的问题,但目前还存在改善的余地。
因此,本发明是鉴于上述情况而完成的,其目的在于提供一种抑制了将半导体元件粘接于基体的粘接材料的润湿扩展的半导体装置。
用于解决问题的手段
为了解决上述课题,本发明的一个实施方式是一种半导体装置,其是通过粘接材料将半导体元件粘接在基体上而成的半导体装置,其特征在于,上述粘接材料含有经表面处理后的粒子或者与分散剂共存的粒子,上述粘接材料的边缘部的至少一部分为上述粒子偏在的区域。
发明效果
根据本发明的一个实施方式,可以抑制粘接材料的润湿扩展。
附图说明
图1是本发明的一个实施方式涉及的半导体装置的示意性俯视图(a)和其A-A截面处的示意性截面图(b)。
图2是对本发明中的基体上表面处的粘接材料的润湿扩展被抑制的原理进行说明的示意图(a)和(b)。
图3是对本发明中的半导体元件侧面处的粘接材料的润湿扩展被抑制的原理进行说明的示意图(a)和(b)。
图4是表示本发明的一个实施方式涉及的半导体装置的粘接材料中的经表面处理后的粒子的含量与润湿扩展面积的关系的曲线图(a)和通过实验例表示该关系的一部分的利用光学显微镜得到的俯视观察图像(b)。
图5是表示本发明的一个实施方式涉及的半导体装置的粘接材料中的经表面处理后的粒子的含量与热阻的关系的曲线图(a)和用于对热阻的降低进行说明的示意图(b)。
图6是用于对本发明的一个实施方式涉及的半导体装置中的半导体元件与粘接材料的关系进行说明的示意性俯视图。
图7是本发明的一个实施方式涉及的半导体装置的示意性俯视图(a)和其B-B截面处的示意性截面图(b)。
图8是本发明的一个实施例涉及的半导体装置的粘接材料的利用扫描电子显微镜得到的俯视观察图像。
图9是图8所示的粘接材料的能量色散型X射线分析(Energy dispersive X-rayspectrometry)的数据。
具体实施方式
下面,参照适当附图对发明的实施方式进行说明。但是,下述说明的半导体装置是用于将本发明的技术思想具体化的,只要没有特定的记载,就不将本发明限定为以下方式。另外,在一个实施方式、实施例中说明的内容也可以用在其他实施方式、实施例中。另外,为了使说明明确,各附图所示的构件的尺寸、位置关系等有时会夸张。
需要说明的是,下述中,可见光波长区域设定成波长为380nm以上且780nm以下的范围,蓝色区域设定成波长为420nm以上且480nm以下的范围、绿色区域设定成波长为500nm以上且560nm以下的范围、黄色区域设定成波长比560nm长且590nm以下的范围、红色区域设定成波长为610nm以上且750nm以下的范围。紫外区域设定成波长为200nm以上且小于380nm的范围。
<实施方式1>
图1(a)是实施方式1涉及的半导体装置的示意性俯视图,图1(b)是表示图1(a)中的A-A截面的示意性截面图。
如图1所示,实施方式1涉及的半导体装置100具备基体10、半导体元件20和粘接材料30。半导体元件20通过粘接材料30被粘接在基体10上。另外,半导体装置100具备对半导体元件20进行密封的封装构件50。此外,半导体装置100具备保护元件80。
更详细而言,半导体装置100为表面贴装型LED。半导体装置100具备:在上表面形成有凹部的基体10、容纳于基体10的凹部中的半导体元件20和填充于基体10的凹部以覆盖半导体元件20的封装构件50。基体10是具有正负一对引线电极和保持该引线电极的白色树脂成形体的封装体。基体10的凹部的底面的一部分由引线电极的上表面构成。半导体元件20为LED元件,通过粘接材料30被粘接在基体10的凹部的底面,通过导线70与引线电极连接。封装构件50是以树脂作为母材,在该母材中含有荧光体60。
并且,粘接材料30含有经表面处理后的粒子40。粘接材料的边缘部301的至少一部分是粒子40或其聚集体41这两者中的至少一者偏在的区域。需要说明的是,聚集体41由粒子40构成,因此可以说粘接材料的边缘部301的至少一部分是粒子40偏在的区域。
具有这样构成的半导体装置100可抑制粘接材料30在基体10上表面的润湿扩展。由此,可以抑制基体10上的半导体元件20的载放部和/或导线70的连接部的粘接材料30所导致的污染。因此,可以无障碍地连接基体10与半导体元件20,可以得到基体10与半导体元件20的充分的连接强度。另外,由于容易增加粘接材料30的涂布量、和/或容易形成充分的焊角、和/或可抑制组成的挥发性相对较高的粘接材料30的固化不良的产生等,因此容易得到基体10与半导体元件20的高连接强度。此外,可以避免在基体10的上表面实施渗出抑制剂等表面能小的涂敷、或者将粘接材料30设计成难以润湿扩展或挥发性低的组成。出于这些原因,例如可以抑制粘接材料30的剥离所导致的电开路故障和散热性的降低、以及导线70的断线等的产生,可以形成可靠性高的半导体装置。此外,容易在基体10上高密度地安装半导体元件20。
需要说明的是,粒子40或其聚集体41这两者中的至少一者偏在的粘接材料30的区域可以是粘接材料的边缘部301的一部分,优选为粘接材料的边缘部301的一半以上,更优选为粘接材料的边缘部301的几乎全部。
在本实施方式中,经表面处理后的粒子40替换成与分散剂共存的粒子,也可以得到同样的作用、效果。这种与分散剂共存的粒子可以通过在粘接材料中混配粒子和用于使该粒子分散的分散剂而得到,例如形成吸附有分散剂的粒子。
另外,本说明书中使用的“偏在”是指粒子等以高浓度存在于特定区域,但并不否定以低浓度存在于该特定区域以外的区域。
在基体10的上表面通过粒子40或其聚集体41这两者中的至少一者抑制粘接材料30的润湿扩展的原理可以如以下所述来说明。
图2(a)和(b)是对本发明中粘接材料在基体上表面的润湿扩展被抑制的原理进行说明的示意图。认为粘接材料30在基体10上表面的润湿扩展被抑制的原理包括两个阶段。参照图2(a)对第1阶段进行说明。第1阶段起因于下述情况:使粒子间的相互作用少、即凝聚性被抑制的粒子40分散在液态的粘接材料的母材35中,优选使其大致均匀地分散在液态的粘接材料的母材35中。固化前的粘接材料30被涂布于基体10的上表面时,在其边缘部301形成弯月形端部。在该弯月形端部的前端(空气(气体)、粘接材料的母材(液体)、基体(固体)三相接触的接触点的附近)存在的粒子40与在相邻的弯月形端部的前端存在的粒子40之间产生毛细管力。该毛细管力发挥作用使得在相邻的弯月形端部的前端存在的粒子40相互吸引。并且,该毛细管力沿着粘接材料的边缘部301连续地发挥作用,由此可抑制在基体10的上表面涂布的固化前的粘接材料30的润湿扩展。尤其是该毛细管力在粘接材料的边缘部301的几乎全部范围发挥作用,由此能够有效地抑制固化前的粘接材料30的润湿扩展。需要说明的是,粒子的分散性高的胶体溶液容易表现出该毛细管力(例如参见上述非专利文献1),因此通过对粒子40实施抑制粒子的凝聚的表面处理、与粒子40一起混配分散剂,能够高效地表现出该毛细管力。
参照图2(b)对第2阶段进行说明。第2阶段起因于促进粘接材料30固化的加热。在使粘接材料30固化的过程中,上述边缘部301的弯月形端部非常薄,粘接材料的母材35中的低沸点成分(例如如果是硅树脂则为低沸点硅氧烷)挥发地最快。由于该挥发引起的边缘部301的弯月形端部的表面张力变化,在固化前的粘接材料30中产生向该弯月形端部流动的表面张力流。并且,润湿扩展因上述毛细管力而被抑制,因此运送至边缘部301的弯月形端部的固化前的粘接材料30返回至内侧,其结果是在边缘部301的弯月形端部产生对流。在该过程中,在边缘部301的弯月形端部处,通过对流运送的粒子40因上述毛细管力而整齐排列、或者因粒子浓度的局部上升而发生凝聚。如此,在粘接材料的边缘部301聚集的粒子40进一步抑制因加热而发生体积膨胀且粘度、表面张力均降低的粘接材料30的润湿扩展。需要说明的是,该第2阶段也可以通过所谓的“轮状扩散(輪染み)”的产生原理来说明。
按照以上方式,固化的粘接材料的边缘部301的至少一部分成为粒子40或其聚集体41这两者中的至少一者偏在的区域。需要说明的是,上述毛细管力依赖于粒子的分散性,因此从抑制粘接材料30的润湿扩展的观点出发,优选粒子40多于粒子聚集体41,但上述毛细管力也会作用于粒子聚集体41。另外,在使粘接材料30固化的过程中,粒子40发生凝聚,结果是有时也在固化的粘接材料30上观测到大量的粒子聚集体41。
下面,对半导体装置100的优选方式进行说明。
粘接材料30包含攀升于半导体元件20的侧面而设置的攀升部302。并且,粘接材料的攀升部302的至少一部分是粒子40或粒子聚集体41这两者中的至少一者偏在的区域。需要说明的是,聚集体41由粒子40构成,因此可以说粘接材料的攀升部302的至少一部分是粒子40偏在的区域。由此,可抑制粘接材料30在半导体元件20的上部的润湿扩展,可以抑制半导体元件20的电极和/或半导体层的层叠体的由粘接材料30导致的污染。因此,可以无障碍地使导线70与半导体元件20连接,并且可以抑制粘接材料30所导致的半导体层的层叠体的短路。另外,由于容易增加粘接材料30的涂布量、和/或容易形成充分的焊角、和/或可抑制组成的挥发性相对较高的粘接材料30的固化不良的产生等,因此容易得到基体10与半导体元件20的高连接强度。出于这些原因,例如可以抑制导线70的断线和/或半导体元件结构的故障等的产生,可以制成可靠性高的半导体装置。
需要说明的是,粒子40或其聚集体41这两者中的至少一者偏在的粘接材料30的区域可以是粘接材料的攀升部302的一部分,优选为粘接材料的攀升部302的一半以上,更优选为粘接材料的攀升部302的几乎全部。
在半导体元件20的侧面,通过粒子40或其聚集体41这两者中的至少一者抑制粘接材料30的润湿扩展的原理可以按照如下所述来说明。
图3(a)和(b)是对本发明中粘接材料在半导体元件侧面的润湿扩展被抑制的原理进行说明的示意图。认为粘接材料30在半导体元件20的侧面的润湿扩展被抑制的原理认为包括两个阶段。参照图3(a)对第1阶段进行说明。第1阶段起因于下述情况:使粒子间的相互作用少、即凝聚性被抑制的粒子40分散在液态的粘接材料的母材35中,优选使其大致均匀地分散在液态的粘接材料的母材35中。固化前的粘接材料30攀升至半导体元件20的侧面时,该攀升部302形成弯月形端部。在该弯月形端部的前端(空气(气体)、粘接材料的母材(液体)、半导体元件(固体)三相接触的接触点的附近)存在的粒子40与在相邻的弯月形端部的前端存在的粒子40之间产生毛细管力。该毛细管力发挥作用使得在相邻的弯月形端部的前端存在的粒子40相互吸引。并且,该毛细管力沿着粘接材料的攀升部302连续地发挥作用,由此可抑制攀升至半导体元件20侧面的固化前的粘接材料30的润湿扩展。尤其是该毛细管力在粘接材料的攀升部302的几乎全部范围发挥作用,由此能够有效地抑制固化前的粘接材料30的润湿扩展。需要说明的是,粒子的分散性高的胶体溶液容易表现出该毛细管力(例如参照上述非专利文献1),因此通过对粒子40实施抑制粒子凝聚的表面处理或与粒子40一起混配分散剂,能够高效地表现出该毛细管力。
参照图3(b)对第2阶段进行说明。第2阶段起因于促进粘接材料30的固化的加热。在使粘接材料30固化的过程中,上述攀升部302的弯月形端部非常薄,粘接材料的母材35中的低沸点成分(例如如果是硅树脂则为低沸点硅氧烷)挥发地最快。由于该挥发引起的攀升部302的弯月形端部的表面张力变化,在固化前的粘接材料30中产生向其弯月形端部流动的表面张力流。并且,润湿扩展因上述毛细管力而被抑制,因此运送至攀升部302的弯月形端部的固化前的粘接材料30返回至内侧,其结果是在攀升部302的弯月形端部产生对流。在该过程中,在攀升部302的弯月形端部处,通过对流运送的粒子40因上述毛细管力而整齐排列、或者因粒子浓度的局部上升而发生凝聚。如此,在粘接材料的攀升部302聚集的粒子40进一步抑制因加热而发生体积膨胀且粘度、表面张力均降低的粘接材料30的润湿扩展。需要说明的是,该第2阶段也可以通过所谓的“轮状扩散”的产生原理来说明。
按照以上方式,固化的粘接材料的攀升部302的至少一部分形成粒子40或其聚集体41这两者中的至少一者偏在的区域。需要说明的是,上述毛细管力依赖于粒子的分散性,因此从抑制粘接材料30的润湿扩展的观点出发,优选粒子40多于粒子聚集体41,但上述毛细管力也会作用于粒子聚集体41。另外,在使粘接材料30固化的过程中,粒子40发生凝聚,结果是有时也在固化的粘接材料30上观测到大量的粒子聚集体41。
(粒子40)
粒子40混配在粘接材料的母材35中,具有抑制粘接材料30的润湿扩展的作用。下面对该粒子40详细说明。需要说明的是,要在表述上将粒子40与后述的填充剂、荧光体区别开的情况下,粒子40称为第1粒子,其它的填充剂、荧光体称为第2粒子、第3粒子等。
粒子40可以使用粒径例如为1nm以上且100μm以下的粒子,优选为纳米粒子(可以定义成粒径为1nm以上且100nm以下的粒子)。粒子40为纳米粒子时,可以以少量的混配得到上述毛细管力,可抑制粘接材料30的润湿扩展。其中,粒子40更优选粒径为5nm以上且50nm以下。粒子聚集体41是粒子40凝聚而成的聚集体。粒子聚集体41比粒子40大,因而更容易被观测到,可以通过观测粒子聚集体41的存在来推测粒子40的存在。粒子聚集体41的直径例如100nm~300μm左右、优选为100nm以上且100μm以下。另外,粒子40或其聚集体41有时具有使半导体元件20的光散射的作用,特别是粒子40为纳米粒子的情况下,可以通过瑞利散射来增大蓝色光等短波长光的散射。另外,通过产生该瑞利散射,容易激发荧光体60,可以减少荧光体60的混配量,从而削减半导体装置的成本。此外,粘接材料30的透光率提高,也可以提高光的提取效率。需要说明的是,粒子40的粒径可以利用平均粒径(例如D50)来定义。粒子40或其聚集体41的直径可以通过激光衍射散射法、图像分析法(扫描电子显微镜(SEM)、透射电子显微镜(TEM))、动态光散射法、X射线小角散射法等来测定。其中,优选图像分析法。图像分析法例如依据JIS Z 8827-1:2008。
粒子40的形状没有特别限定,可以为无定形破碎状等,但通过为球状,可以使粒子间的接触最小化由此抑制凝聚,因而优选。另外,粒子40为板状时,可以对粘接材料30赋予阻气性。
粒子40没有特别限定,可以为有机物,也可以为无机物。粒子40可以为一种、也可以为组合两种以上的构成。从半导体装置的光提取效率的观点出发,粒子40优选为透光性的物质。另外,从焊料耐热性的观点出发,粒子40的熔点优选为260℃以上。此外,粒子40可以具有导电性,但从避免半导体元件20的短路等的观点考虑,优选具有电绝缘性。具体而言,作为有机物,优选为聚甲基丙烯酸酯和其共聚物、聚丙烯酸酯和其共聚物、交联聚甲基丙烯酸酯、交联聚丙烯酸酯、聚苯乙烯和其共聚物、交联聚苯乙烯、环氧树脂、硅树脂、非晶含氟树脂等树脂。另外,设定成也包括利用选自这些之中的至少一种树脂涂敷无机粒子而成的核-壳型的粒子。这种有机物的粒子通过共聚使折射率与粘接材料的母材35相匹配,因此即使发生凝聚也能够维持透光性等,光学性影响少。另一方面,作为无机物,优选为氧化硅、氧化铝、氧化锆、氧化钛、氧化锌、氧化镁、氧化镓、氧化钽、氧化铌、氧化铋、氧化钇、氧化铱、氧化铟、氧化锡等氧化物。这种无机物的粒子在耐热性、耐光性方面优异,并且热传导性较高。其中,氧化硅、氧化铝、氧化锆、氧化钛容易获得,相对廉价。除此以外,粒子40也可以使用与后述的荧光体60相同的粒子。
粒子40可以是量子点。量子点是粒径为1nm以上且100nm以下的化合物半导体的粒子,也被称为纳米荧光体。量子点可以通过改变尺寸(粒径)来选择发光波长。量子点例如为12族元素与16族元素的化合物、13族元素与16族元素的化合物或14族元素与16族元素的化合物。具体而言,例如为硒化镉、碲化镉、硫化锌、硫化镉、硫化铅或硒化铅等。粒子40为荧光体(包括量子点)、半导体元件20为紫外或蓝色发光的发光元件的情况下,粒子40优选为红色发光。由此,抑制粒子40发出的光被封装构件50中的荧光体60(荧光体60例如为绿色发光或黄色发光)的吸收,可以得到发光效率良好的半导体装置(发光装置)。
粒子40优选被施以表面处理(即在粒子40的表面上形成附着物)。由此,粒子40的凝聚被抑制,换而言之粒子40的分散性提高,容易表现出上述毛细管力,容易抑制粘接材料30的润湿扩展。这种粒子40的表面处理可以列举长链脂肪族胺和其衍生物;长链脂肪族脂肪酸和其衍生物;硅烷偶联剂;具有胺基和/或羧基的硅氧烷化合物;具有选自硅烷醇基、氢硅烷基、醇基的至少一种的硅氧烷化合物;具有选自硅烷醇基、烷氧基、氢硅烷基的至少一种和乙烯基甲硅烷基的硅氧烷化合物;单缩水甘油醚封端的硅氧烷化合物;单羟基醚封端的硅氧烷化合物;有机硅氮烷化合物、有机钛酸酯化合物、异氰酸酯化合物、环氧化合物、磷酸和磷酸酯化合物等。另外,作为分散剂,除上述表面处理材料以外,可以列举具有酸性基团或碱性基团的高分子化合物、含氟的表面活性剂、多元醇化合物、聚环氧乙烷衍生物、聚环氧丙烷衍生物、多元脂肪酸衍生物、硅烷偶联剂的水解物、季铵盐化合物等。粒子40为纳米粒子的情况下,优选实施表面处理,粒子40为微米粒子的情况下,还优选混配分散剂。
图4(a)和(b)分别是表示实施方式1涉及的半导体装置100的粘接材料中经表面处理后的粒子的含量与润湿扩展面积的关系的曲线图、和通过实验例表示该关系的一部分的基于光学显微镜的俯视观察图像。需要说明的是,图4(a)和(b)中的粘接材料的润湿扩展面积是,将粘接材料涂布于带有镀银层的引线电极的上表面,在常温放置2小时后,从固化状态的面积减去涂布不久后的面积而得到的面积。需要说明的是,粘接材料的涂布不久后的面积(图4(b)中以虚线的圆表示)约为0.12mm2。另外,表现出该曲线图的关系的粘接材料30例如可以使用与后述的实施例1的材料同样的材料,但并非限定于此。如图4(a)和(b)所示,粒子40和/或其聚集体41的含量为0.1重量%以上时,容易得到抑制粘接材料30的润湿扩展的作用。从得到抑制粘接材料30的润湿扩展的作用的观点考虑,粒子40和/或其聚集体41的含量的上限值没有特别限定,但粒子40和/或其聚集体41的含量大于50重量%时,有可能导致粘接材料30的粘度过度上升、白浊、粒子40的过度凝聚等。因此,粒子40和/或其聚集体41的含量优选为0.1重量%以上且50重量%以下。尤其通过使粒子40和/或其聚集体41的含量为1重量%以上且20重量%以下,可以维持良好的粘接材料30的各特性,并且可以稳定地得到抑制粘接材料30的润湿扩展的作用。更优选粒子40和/或其聚集体41的含量为5重量%以上且20重量%以下。需要说明的是,粒子40和/或其聚集体41的含量相当于粒子40的混配量,以相对于粘接材料的母材35的比例的方式由重量百分比表示。如此,以极少混配量的粒子40便可以抑制粘接材料30的润湿扩展,这对于制造半导体装置而言是很大的优点。
图5(a)和(b)分别是表示实施方式1涉及的半导体装置的粘接材料中经表面处理后的粒子的含量与热阻的关系的曲线图、和用于对热阻的降低进行说明的示意图。需要说明的是,示出该曲线图的关系的粘接材料30例如可以为与后述的实施例1的材料同样的材料,但并非限定于此。如图5(a)所示,与未混配粒子40的粘接材料(Ref.)相比,混配有粒子40的粘接材料30的热阻降低。可以推测这是由于,如图5(b)所示,连接固化后的粘接材料的攀升部302和边缘部301的表层区域(包括攀升部302与边缘部301之间的中间表层部)的热传导性因在该表层区域存在的粒子40和/或其聚集体41而升高,以该表层区域作为路径,热容易从半导体元件20传导至基体10(参照图5(b)中的箭头)。尤其是对于具有透光性的粘接材料30,通过使粒子40为光遮蔽性低的纳米粒子、尤其是使粒子40为粒径为5nm以上且50nm以下的纳米粒子,从而借助对流和毛细管力使粒子40以自组装的方式偏在于粘接材料30的表层区域中,由此能够实现兼顾确保粘接材料30的优良的透光性和降低热阻。粒径小于5nm的粒子40的情况下,容易产生凝聚,透光性反而容易降低,另外粒径大于50nm的粒子40的情况下,即使略微发生凝聚,透光性也会降低,因此优选使粒子40为上述纳米粒子。从降低热阻的观点考虑,粒子40优选为热传导性优异的材料。作为该热传导性优异的材料,可以列举例如氧化铝、氮化铝、氮化硼、氮化硅等。其中,从热传导性、透光性、价格等综合性观点考虑,优选为氧化铝。从热传导性的观点考虑,还优选氮化铝。另外,粒子40的粒径越小,则越容易进入粘接材料的母材35(例如树脂)的分子链内,越可以期待强力束缚粘接材料的母材35从而提高母材35自身的热传导性。
图6是用于对实施方式1涉及的半导体装置中的半导体元件与粘接材料的关系进行说明的示意性俯视图。俯视图中的半导体元件20的侧面与粘接材料的边缘部301的最长距离(图6中以“d”表示)没有特别限定,优选为半导体元件20的最长尺寸(图6中以“w”表示)的50%以下、更优选为最长尺寸w的30%以下、进一步优选为最长尺寸w的20%以下。这是因为,粘接材料30的边缘部301与攀升部302的距离越小,则分别在边缘部301和攀升部302聚集的粒子40和/或其聚集体41(即粒子40带来的两种轮状扩散)彼此更接近,上述表层区域的热传导性更容易提高。最长距离d的下限值没有特别限定,例如为最长尺寸w的1%左右。需要说明的是,在本说明书中使用的“俯视”是指相对于基体10的上表面或半导体元件20的上表面垂直地向下看的视角。
半导体元件20为发光元件的情况下,封装构件50优选含有偏在于该封装构件50中的半导体元件20侧的荧光体60。如上所述,本实施方式的粘接材料30可以降低热阻,因此通过将荧光体60配置在半导体元件20的附近,由此可以抑制热所导致的荧光体60的劣化。特别是在荧光体60含有耐热性相对小的氟化物荧光体的情况下等更有效。作为氟化物荧光体,可以列举利用锰活化后的氟化硅酸钾等。
<实施方式2>
图7(a)是实施方式2涉及的半导体装置的示意性俯视图,图7(b)是表示图7(a)中的B-B截面的示意性截面图。
如图7所示,实施方式2涉及的半导体装置200具备基体10、半导体元件20和粘接材料30。半导体元件20通过粘接材料30被粘接在基体10上。另外,半导体装置200还具备封装构件50。此外,半导体装置200具备保护元件80。
更详细而言,半导体装置200为表面贴装型LED。半导体装置200具备具有大致平坦的上表面的基体10、载放于基体10上表面的半导体元件20和设置成在基体10的上表面覆盖半导体元件20的封装构件。基体10是布线基板,其具有正负一对布线和保持该布线的母体。半导体元件20为LED元件,并且通过粘接材料30与基体10的布线粘接。封装构件50以树脂作为母材,其上表面在半导体元件20上方具有例如半球面状等凸面区域。
另外,粘接材料30含有经表面处理后的粒子40。另外,粘接材料的边缘部301的至少一部分是粒子40或其聚集体41这两者中的至少一者偏在的区域。
具有这样构成的半导体装置200也可抑制粘接材料30的润湿扩展。需要说明的是,在本实施方式中,经表面处理后的粒子40替换成与分散剂共存的粒子也可以得到同样的作用、效果。这种与分散剂共存的粒子可以通过在粘接材料中混配粒子和用于使该粒子分散的分散剂而得到,例如形成吸附有分散剂的粒子。
在半导体装置200中,粒子40或其聚集体41这两者中的至少一者也存在于粘接材料30的外缘、即粘接材料的边缘部301的外侧附近。这种存在于粘接材料30外缘的粒子40和/或其聚集体41发挥阻挡粘接材料30的作用,可以进一步抑制粘接材料30的润湿扩展。
下面,对本发明的一个实施方式的半导体装置的各构成要素进行说明。
(半导体装置100)
半导体装置至少具备基体和半导体元件,是半导体元件粘接在基体上而成的装置。半导体装置可以是表面贴装型、也可以是引线插装型。
(基体10)
基体是作为安装半导体元件的壳体或底座的构件。基体主要可以列举包含引线电极和成形体的封装体形态、包含母体和布线的布线基板形态。更具体而言,基体中包括通过传递成形、注塑成形等使树脂成形体一体成形于引线框架而成的基体、对印刷有导电性糊剂的陶瓷生片进行层叠、烧制而成的基体等。基体的半导体元件的载放面优选大致平坦,但也可以弯曲。基体可以使用平板状的基体、具有凹部(罩杯部)的基体等。平板状的基体容易安装半导体元件,具有凹部的基体容易提高光的提取效率。凹部可以通过使成形体、母体自身凹陷来形成,也可以通过在大致平坦的成形体或母体的上表面另行形成框状的突起由此以其凸部的内侧作为凹部。凹部的俯视形状可以列举矩形、带圆角的矩形、圆形、椭圆形等。为了使成形体容易从模具脱模,并且也为了高效地提取出半导体元件的光,凹部的侧壁面优选倾斜(包括弯曲)成凹部从凹部底面起朝上方扩径(倾斜角例如自凹部底面起为95°以上且120°以下)。凹部的深度没有特别限定,例如为0.05mm以上且2mm以下、优选为0.1mm以上且1mm以下、更优选为0.25mm以上且0.5mm以下。
(封装体)
作为引线电极的材料,可以使用能够与半导体元件连接导电的金属。具体而言,可以列举铜、铝、金、银、钨、铁、镍、钴、钼或它们的合金、磷青铜、含铁铜等。引线电极可以以这些金属的层叠体的方式构成,但由于简便,可以以单层的方式构成。特别是优选以铜作为主要成分的铜合金。另外,可以在其表层设置有银、铝、铑、金、铜或它们的合金等的镀层或光反射膜,其中优选为光反射性优异的银。引线电极例如是通过切割成形使引线框架单片化成各个半导体装置的一部分而成的构件。引线框架中,对由上述材料形成的金属板实施冲压、蚀刻、轧制等各种加工而成的材料作为母体。引线电极的厚度可以任意选择,例如为0.1mm以上且1mm以下,优选为0.2mm以上且0.4mm以下。
成形体与引线电极一体成形,构成封装体。成形体的母材可以列举脂环族聚酰胺树脂、半芳香族聚酰胺树脂、聚对苯二甲酸乙二酯、聚环己烷对苯二甲酸酯、液晶聚合物、聚碳酸酯树脂、间规聚苯乙烯、聚苯醚、聚苯硫醚、聚醚砜树脂、聚醚酮树脂、聚芳酯树脂等热塑性树脂;或者聚双马来酰亚胺三嗪树脂、环氧树脂、环氧改性树脂、硅树脂、有机硅改性树脂、聚酰亚胺树脂、聚氨酯树脂等热固性树脂;或者它们的改性树脂及杂化树脂。另外,这些母材中,作为填充剂或着色颜料,可以含有玻璃、二氧化硅、氧化钛、氧化镁、碳酸镁、氢氧化镁、碳酸钙、氢氧化钙、硅酸钙、硅酸镁、硅灰石、云母、氧化锌、钛酸钡、钛酸钾、硼酸铝、氧化铝、氧化锌、碳化硅、氧化锑、锡酸锌、硼酸锌、氧化铁、氧化铬、氧化锰、炭黑等粒子或纤维。
(布线基板)
布线基板的母体可以具有电绝缘性,但即使具有导电性,通过隔着绝缘膜等也能够使其与布线电绝缘。作为布线基板的母体的材料,可以列举含有氧化铝、氮化铝或它们的混合物的陶瓷;包含铜、铁、镍、铬、铝、银、金、钛或它们的合金的金属;环氧树脂、BT树脂、聚酰亚胺树脂等树脂或它们的纤维强化树脂(增强材料为玻璃等)。布线基板借助于母体的材质、厚度可以制成刚性基板或挠性基板(柔性基板)。另外,布线基板并非限定于平板状的形态,也可以制成具有与上述封装体同样的凹部的形态。
布线形成于母体的至少上表面上,也可以形成在母体的内部、下表面、侧面。另外,布线可以具有粘接半导体元件的焊盘(芯片焊垫)部、外部连接用的端子部、连接它们的引出布线部等。作为布线的材料,可以列举铜、镍、钯、铑、钨、铬、钛、铝、银、金或它们的合金。特别是从散热性的观点考虑优选为铜或铜合金。另外,可以在其表层设置有银、铝、铑、金、铜或它们的合金等的镀层或光反射膜,其中优选光反射性优异的银。这些布线可以通过电镀、化学镀、溅射、蒸镀、印刷、涂布、共烧(co-fire)法、后烧(post-fire)法等来形成。
(半导体元件20)
半导体元件至少具备半导体元件结构,多数情况下还具备基板。半导体元件除发光元件以外也可以是受光元件、还可以是电子元件。作为发光元件,可以列举发光二极管(LED)、半导体激光(LD)等。作为受光元件,可以列举光电二极管、太阳能电池等。作为电子元件,可以列举二极管(非发光)、晶体管、IC、LSI等。半导体元件的俯视形状优选为四边形、特别优选为正方形或在一个方向上较长的矩形,但也可以为其它形状。半导体元件(尤其是基板)的侧面可以近似垂直于上表面,也可以向内侧或外侧倾斜。半导体元件可以为在同一面侧具有p、n两电极的结构,也可以为分别在元件的上表面和下表面设置有p电极和n电极的对置电极(上下电极)结构。在同一面侧具有p、n两电极的结构的半导体元件通过导线使各电极与引线电极或布线连接(面朝上安装)、或者利用导电性的粘接材料使各电极与引线电极或布线连接(倒装芯片(面朝下)安装)。对置电极结构的半导体元件是通过导电性的粘接构件使下表面电极与引线电极或布线粘接,通过导线使上表面电极与引线电极或布线连接。在一个半导体装置上搭载的半导体元件的个数可以是一个也可以是多个。多个半导体元件可以以串联或并联的方式连接。
(基板)
基板可以是能够使构成半导体元件结构的半导体的结晶生长的结晶生长用基板,也可以是与从结晶生长用基板分离出的半导体元件结构粘接的粘接用基板。通过使基板具有透光性,易于采用倒装芯片安装,并且易于提高光的提取效率。通过使基板具有导电性,能够采用对置电极结构,并且易于面内均匀地向半导体元件结构供电,易于提高功率效率。作为结晶生长用基板的母材,可以列举蓝宝石、尖晶石、氮化镓、氮化铝、硅、碳化硅、砷化镓、磷化镓、磷化铟、硫化锌、氧化锌、硒化锌、金刚石等。作为粘接用基板,优选为遮光性基板。遮光性基板多数热传导性优异,容易提高半导体元件的散热性。具体而言,可以使用硅、碳化硅、氮化铝、铜、铜-钨、砷化镓、陶瓷等。另外,如果存在抑制光从半导体元件结构向基板内部的行进的接合层,则可以相比光学特性更优先考虑热传导性、导电性来选择基板。基板的厚度例如为20μm以上且1000μm以下,从基板的强度、半导体装置的厚度的观点考虑,优选为50μm以上且500μm以下。
(半导体元件结构)
半导体元件结构可以是发光元件结构、或受光元件结构、或电子元件结构。半导体元件结构优选为半导体层的层叠体,即至少包含n型半导体层和p型半导体层且在它们之间隔着有源层。此外,半导体元件结构可以包括电极、保护膜。电极可以由金、银、锡、铂、铑、钛、铝、钨、钯、镍或它们的合金构成。保护膜可以由选自由硅、钛、锆、铌、钽、铝组成的组中的至少一种元素的氧化物或氮化物构成。半导体元件为发光元件或受光元件的情况下,半导体元件结构的发光波长或受光波长可以根据半导体材料和其混晶比在从紫外区域至红外区域中选择。作为半导体材料,优选使用氮化物半导体(主要以通式InxAlyGa1-x-yN(0≤x、0≤y、x+y≤1)表示),该材料能够发出可高效激发荧光体的短波长的光,并且能够实现高频及高温工作的电子器件,而且能够实现高效率的太阳能电池。除此以外,还可以使用InAlGaAs系半导体、InAlGaP系半导体、硫化锌、硒化锌、碳化硅等。
(金属膜)
半导体元件的基板的下表面(设置有半导体元件结构的一侧的面的相反侧的面)上可以设置有金属膜。作为金属膜的材料,可以使用金、银、锡、铑、钨、镍、钼、铂、钯、钛或它们的合金。金属膜可以为单层膜也可以为多层膜。金属膜的形成方法没有特别限定,可以列举溅射、蒸镀等。需要说明的是,该金属膜也可以省略。
(粘接材料30)
粘接材料是将半导体元件固定于基体的构件。尤其是,粘接材料通过具有透光性,可以高效地将从半导体元件射出的光提取至装置外部,因而优选,但并非限定于此。电绝缘性的粘接材料的母材可以使用环氧树脂、硅树脂、聚酰亚胺树脂、氨基甲酸酯树脂、三聚氰胺树脂、脲树脂、不饱和聚酯树脂、醇酸树脂、双马来酰亚胺树脂或它们的改性树脂及杂化树脂等。其中,要求透光性的情况下,由于透光性优异,粘接材料的母材优选为环氧树脂、硅树脂或它们的改性树脂及杂化树脂。更详细而言,优选酸酐固化环氧树脂、阳离子固化环氧树脂、加成型硅树脂或它们的改性树脂及杂化树脂。另外,对于粘接材料而言,为了热传导性的提高等,可以在这些树脂中含有金属、金属氧化物或金属氮化物等填充剂。作为导电性的粘接材料,可以使用包含银、金、铜、铂、铝、钯等金属粉末和树脂粘合剂的金属糊剂;锡-铋系、锡-铜系、锡-银系、金-锡系等焊料;低熔点金属等钎料。另外,除此以外,作为导电性的粘接材料,可以使用含有银粒子和/或氧化银粒子、低级醇等有机溶剂的银粒子烧结型糊剂(例如参见国际公开公报WO2009/090915)。
(封装构件50)
封装构件是对半导体元件及导线、引线电极及布线的一部分等进行封装保护以防尘埃、外力等的构件。封装构件优选具有电绝缘性。另外,封装构件优选能够透过从半导体元件射出的光或要从装置外部接受的光(优选透光率为70%以上)。另外,半导体元件为电子元件的情况下,封装构件与上述成形体或母体可以设置成一体。作为封装构件的具体的母材,可以列举硅树脂、环氧树脂、酚醛树脂、聚碳酸酯树脂、丙烯酸类树脂、TPX树脂、聚降冰片烯树脂或它们的改性树脂及含有一种以上这些树脂的杂化树脂。也可以为玻璃。其中,硅树脂或其改性树脂由于耐热性、耐光性优异、固化后的体积收缩少,因此优选。封装构件的母材特别优选以苯基硅树脂作为主要成分。苯基硅树脂的阻气性也优异,易于抑制腐蚀性气体所导致的引线电极和布线的劣化。对于封装构件而言,其母材中优选含有填充剂、荧光体等,但也可以不含有。
(填充剂)
填充剂可使用分散剂、着色剂等。具体而言,可以列举二氧化硅、氧化钛、氧化镁、碳酸镁、氢氧化镁、碳酸钙、氢氧化钙、硅酸钙、氧化锌、钛酸钡、氧化铝、氧化铁、氧化铬、氧化锰、玻璃、炭黑等。填充剂的形状可以列举球状、无定形破碎状、针状、柱状、板状(包括鳞片状)、纤维状或树枝状等(后述的荧光体也是同样)。另外,可以为中空或多孔质的填充剂。
(荧光体60)
荧光体吸收从半导体元件射出的一次光的至少一部分后,射出与一次光不同波长的二次光。荧光体可以是一种,也可以是两种以上的组合。具体而言,可以列举利用铈活化后的钇铝石榴石、利用铕和/或铬活化后的含氮铝硅酸钙、利用铕活化后的硅铝氧氮陶瓷、利用铕活化后的硅酸盐、利用锰活化后的氟化硅酸钾等。由此,可以制成射出可见光波长的一次光和二次光的混色光(例如白色系)的半导体装置、被紫外光的一次光激发而射出可视光波长的二次光的半导体装置。
(导线70)
导线是将半导体元件的电极与引线电极或布线连接的导线。具体而言,可以使用金、铜、银、铂、铝或它们的合金的金属线。尤其是,优选难以产生因来自封装构件的应力所导致的断裂且热阻等优异的金线。另外,为了提高光反射性,可以是至少表面由银或银合金构成。
(保护元件80)
保护元件是用于保护半导体元件以防例如静电及高电压浪涌的元件。作为具体的保护元件,可以列举齐纳二极管。为了抑制光吸收,保护元件可以被含有白色颜料的树脂等光反射性的被覆构件被覆。
实施例
下面对本发明涉及的实施例进行详细说明。需要说明的是,本发明并非只限定于下面所示的实施例,这是不言而喻的。
<实施例1>
实施例1的半导体装置是上表面发光(顶发光(top view))式的表面贴装型LED,其具有图1所示例子的半导体装置100的结构,并且具备纵向5.0mm、横向6.5mm、厚度1.35mm的基体。基体是含有作为白色颜料的二氧化钛和作为填充剂的二氧化硅的环氧树脂制的成形体整体成形于在表面实施了镀银的铜合金制的正负一对引线电极上而构成的。在基体的大致中央借助成形体形成有直径4.3mm、深度0.85mm的俯视呈圆形且两段式的凹部。引线电极其表面的一部分构成凹部底面的一部分,并且延伸出至成形体的外侧。这样的基体通过在模具内设置引线框架后注入成形体的构成材料并使其固化来制作。
在基体的凹部底面处,两个半导体元件通过粘接材料粘接在负极侧的引线电极上,其各电极通过金的导线(线径25μm)各自与正负两极的引线电极连接。该半导体元件是能够发出蓝色(中心波长约为455nm)的、纵向460μm、横向460μm、厚度120μm的LED元件。半导体元件具有在蓝宝石基板的上表面依次层叠有氮化物半导体的n型层、有源层、p型层而成的发光元件结构。粘接材料以苯基硅树脂作为母材,其中含有氧化锆粒子。该氧化锆粒子的粒径约为5nm,其被实施过硅氧烷化合物的表面处理,该氧化锆粒子相对于母材的树脂混配了5重量%。
另外,在正极侧的引线电极的上表面通过属于银浆的导电性粘接材料粘接有保护元件,其是纵向150μm、横向150μm、厚度85μm的对置电极结构的齐纳二极管。另外,保护元件其上表面电极通过导线(同上)与负极侧的引线电极的上表面连接。
并且,封装构件设成在基体的凹部的内侧被覆半导体元件。该封装构件以折射率为1.53的苯基硅树脂作为母材,其中含有作为荧光体的利用铈活化后的钇铝石榴石(YAG:Ce)和作为填充剂的二氧化硅。另外,封装构件的上表面与基体的上表面大致为同一面,形成几乎平坦面(严格来讲,因固化收缩而为略微凹面)。这样的封装构件通过在具有流动性的状态下由分配器所滴加并通过加热使其固化来形成。需要说明的是,荧光体偏在于封装构件中的半导体元件侧(即凹部的底面侧)。
图8是实施例1涉及的半导体装置的粘接材料的利用扫描电子显微镜(日立制作所公司制造的S-4800)得到的俯视观察图像。图9是图8所示的粘接材料的能量色散型X射线(EDX)分析的数据。如图8、9所示,粘接材料的边缘部的至少一部分成为氧化锆粒子或其粒子聚集体这两者中至少一者偏在的区域。另外,如该图所示,粘接材料在半导体元件侧面的攀升部的至少一部分成为氧化锆粒子或其粒子聚集体这两者中至少一者偏在的区域。
如上所述构成的实施例1的半导体装置可以发挥与实施方式1的半导体装置100同样的效果。需要说明的是,与除了在粘接材料中不混配氧化锆粒子以外同样构成的半导体装置相比,实施例1的半导体装置的光通量、半导体元件的粘接强度(芯片抗剪强度(dieshear strength))均能够维持同等的值。
产业上的可利用性
本发明涉及的半导体装置能够用于液晶显示器的背光源、各种照明器具、大型显示器、广告或目的地指引等各种显示装置、投影装置、以及数码摄像机、传真机、复印机、扫描机等中的图像读取装置、各种传感器,此外还能够用于个人电脑等各种电子计算机及在它们中搭载的电路基板等中。
符号说明
10…基体
20…半导体元件
30…粘接材料(301…边缘部、302…攀升部)
35…粘接材料的母材
40…经表面处理后的粒子、或与分散剂共存的粒子
41…经表面处理后的粒子聚集体、或与分散剂共存的粒子聚集体
50…封装构件
60…荧光体
70…导线
80…保护元件
100、200…半导体装置
Claims (12)
1.一种半导体装置,其是通过粘接材料使半导体元件粘接在基体上而成的半导体装置,所述粘接材料包含形成于所述半导体元件的外侧的焊角,其中,
所述粘接材料含有经表面处理后的粒子或与分散剂共存的粒子,
在所述焊角的边缘部的弯月形端部中,所述粒子的粒子浓度局部地升高,
所述粒子偏在于所述焊角的边缘部的弯月形端部的表层区域,所述粒子偏在的区域是所述焊角的边缘部的弯月形端部的表层区域的全部,
所述粒子为粒径5nm以上且50nm以下的纳米粒子。
2.如权利要求1所述的半导体装置,其中,
所述焊角包含攀升于所述半导体元件的侧面而设置的攀升部,
所述攀升部的至少一部分是所述粒子偏在的区域。
3.如权利要求1或2所述的半导体装置,其中,所述粘接材料中的所述粒子的含量为0.1重量%以上且50重量%以下。
4.如权利要求3所述的半导体装置,其中,所述粘接材料中的所述粒子的含量为1重量%以上且20重量%以下。
5.如权利要求1或2所述的半导体装置,其中,所述粒子还存在于所述粘接材料的外缘。
6.如权利要求1或2所述的半导体装置,其中,
所述粘接材料的母材为环氧树脂、硅树脂或者它们的改性树脂或杂化树脂,
所述粒子任选自氧化硅、氧化铝、氧化锆、氧化钛。
7.如权利要求1或2所述的半导体装置,其中,所述粒子为氧化铝、氮化铝、氮化硼、氮化硅中的至少一种。
8.如权利要求1或2所述的半导体装置,其中,俯视时所述半导体元件的侧面与所述粘接材料的边缘部的最长距离为所述半导体元件的最长尺寸的50%以下。
9.如权利要求2所述的半导体装置,其中,所述粘接材料的攀升部的一半以上是所述粒子偏在的区域。
10.如权利要求1或2所述的半导体装置,其中,
所述半导体元件为发光元件,
所述粘接材料具有透光性。
11.如权利要求1或2所述的半导体装置,其中,
所述半导体装置具备封装所述半导体元件的封装构件,
所述半导体元件为发光元件,
所述封装构件含有荧光体,所述荧光体偏在于所述封装构件中的所述半导体元件侧。
12.如权利要求11所述的半导体装置,其中,所述荧光体包含氟化物荧光体。
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US20190189866A1 (en) | 2019-06-20 |
EP3696866B1 (en) | 2023-11-01 |
US10978623B2 (en) | 2021-04-13 |
US20150295153A1 (en) | 2015-10-15 |
CN104979458A (zh) | 2015-10-14 |
JP6432416B2 (ja) | 2018-12-05 |
JP2015213157A (ja) | 2015-11-26 |
EP3696866A1 (en) | 2020-08-19 |
US10290778B2 (en) | 2019-05-14 |
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EP2933848A1 (en) | 2015-10-21 |
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