CN102482540B - 用于超声波粘合的各向异性导电粘合剂、和使用其的电子部件连接方法 - Google Patents
用于超声波粘合的各向异性导电粘合剂、和使用其的电子部件连接方法 Download PDFInfo
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- CN102482540B CN102482540B CN2010800405436A CN201080040543A CN102482540B CN 102482540 B CN102482540 B CN 102482540B CN 2010800405436 A CN2010800405436 A CN 2010800405436A CN 201080040543 A CN201080040543 A CN 201080040543A CN 102482540 B CN102482540 B CN 102482540B
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Abstract
本发明涉及用于超声波粘合的各向异性导电粘合剂(ACA),其电连接作为第一电子部件的连接部分的电极的第一电极和作为第二电子部件的连接部分的电极的第二电极。该用于超声波粘合的各向异性导电粘合剂包括:绝缘聚合物树脂;导电的粘合剂颗粒,其通过由施加至该各向异性导电粘合剂的超声波产生的热而熔化;和间隔物颗粒,其具有高于粘合剂颗粒的熔点。使粘合剂颗粒熔化并与选自第一电极和第二电极的至少一个电极进行表面接触,并且使所述第一电极和所述第二电极以通过所述间隔物颗粒在所述第一电极和所述第二电极之间所保持的恒定间隙电连接。
Description
技术领域
本发明涉及用于电连接作为第一电子部件的连接部分的电极的第一电极和作为第二电子部件的连接部分的电极的第二电极的各向异性导电粘合剂(ACA)、以及使用其将电子部件互连的方法。
背景技术
各向异性导电粘合剂可为这样的粘合剂材料:其基于绝缘聚合物树脂和分散在该聚合物树脂中的导电颗粒同时进行经由导电颗粒的电极电互连,和经由聚合物树脂的热固化的机械连接。
通常,使用细颗粒例如金、铜、镍、碳、金属涂覆的聚合物、本征导电聚合物等作为导电颗粒,并且使用环氧树脂、聚酰亚胺树脂、硅树脂、丙烯酸类树脂、聚酯树脂或者聚砜树脂作为聚合物树脂。根据应用领域,导电颗粒的类型可变化,并且为了降低热膨胀系数,它们可包括非导电颗粒。
在使用各向异性导电粘合剂将电子部件互连的方法中,在如下方面具有优点:它是清洁、简单和环境友好的,因为用无铅方法代替了现有的焊接(soldering)方法;它是更加热稳定的,因为无需将向产品施加瞬时温度(低温方法);该方法的成本可通过使用便宜基底例如玻璃基底或聚酯柔性基底而降低,而且可经由使用细导电颗粒的电连接来实施超精细电极间距。
具有这些优点的各向异性导电粘合剂广泛地用于例如如下的应用中:智能卡、液晶显示器(LCD)、等离子体显示面板(PDP)、有机发光二极管的显示包装、计算机、便携式电话、通信***等。
各向异性导电粘合剂一般在显示模块安装技术中用于在将柔性基底连接至玻璃基底时的外部引线接合(outer lead bonding)(OLB)和用于将该柔性基底与印刷电路板(PCB)接合。各向异性导电粘合剂的市场正迅速地增长。
此外,在COG(玻载芯片)(其中驱动电路IC芯片直接连接至玻璃基底)和COF(膜载芯片)(其中倒装芯片直接连接至柔性基底)的接合方法中,因为需要具有超精细间距的连接(归因于驱动电路IC日益提高的致密化和复杂性),所以各向异性导电粘合剂的重要性也正迅速地增加。
在使用各向异性导电粘合剂的电子部件的安装技术中,利用热压法和聚合物树脂的热固化在电极片(electrode pad)之间经由导电颗粒的导电来实现连接。
当使用各向异性导电粘合剂时,必须解决例如如下的若干问题:聚合物树脂不均匀的热固化,由于在加热和冷却过程中产生的残余应力所引起的扭曲,热变形,板平坦度等。此外,由于电子部件的电极和各向异性导电粘合剂的导电颗粒之间的点接触,电子部件的电连接存在高接触电阻的问题。
详细而言,图1A说明将作为连接对象的两个电子部件100和300互连的常规方法。如图1A中所示,作为一个连接对象的电子部件100包括在其上表面部分中形成的电极110。电子部件100的上表面部分用各向异性导电糊200涂覆或附着(attach)有各向异性导电膜200,该各向异性导电糊200或各向异性导电膜200是包含绝缘热固性聚合物树脂220和导电金属颗粒210的各向异性导电粘合剂;然后在其上排列作为另一连接对象的电子部件300的电极310。之后,通过施加热和压力使聚合物树脂固化,并且这两个电极110和310变为导电的。
然而,在该常规技术中,导电颗粒210与电极110及310仅仅是物理接触,如图1B中所示。因此,由于该物理点接触,在两个电极之间的接触电阻可为高的,并且电流的流动可受限制。
发明内容
本发明的一个实施方案涉及用于电连接的各向异性导电粘合剂,其中可显著地降低在作为连接对象的两个电极之间的接触电阻,而且可流过大量电流,因此实现高可靠性。
本发明的另一实施方案涉及使用超声波的电子部件互连方法,其中各向异性导电粘合剂能够均匀地固化以改进可靠性,作为连接对象的电子部件可受热而不变形,而且在电子部件的电极之间的接触电阻可为非常低的。
根据本发明的一个实施方案,在电连接作为第一电子部件的连接部分的电极的第一电极与作为第二电子部件的连接部分的电极的第二电极的用于超声波粘合的各向异性导电粘合剂(ACA)中,所述各向异性导电粘合剂包括:绝缘聚合物树脂;导电的粘合剂颗粒,其由于由施加至所述各向异性导电粘合剂的超声波产生的热而熔化;和间隔物颗粒,其具有比所述粘合剂颗粒高的熔点;和使所述粘合剂颗粒熔化且与选自所述第一电极和所述第二电极的至少一个电极进行表面接触;并且使所述第一电极和所述第二电极以通过所述间隔物颗粒在所述第一电极和所述第二电极之间所保持的恒定间隙电连接。
在本发明的各向异性导电粘合剂中,通过所施加的超声波可导致所述聚合物树脂的塑性变形,和通过根据该塑性形的所述聚合物树脂的自加热可使所述粘合剂颗粒熔化。
另外,在本发明的各向异性导电粘合剂中,当施加超声波时,所述间隔物颗粒可保持固态,并且当连接所述第一电子部件和所述第二电子部件时,可抵抗所施加的压力而保持所述第一电极和所述第二电极之间的间隙。此外,在所述间隔物颗粒中,可抵抗当连接所述第一电子部件和所述第二电子部件时所施加的压力而保持所述第一电极和所述第二电极之间的间隙,使得熔化的粘合剂颗粒具有均匀的粘合外观(appearance)。
所述粘合剂颗粒和所述间隔物颗粒满足以下式1。
【式1】
Tmc≤0.9Tms
(Tmc是所述粘合剂颗粒的熔点(℃)和Tms是所述间隔物颗粒的熔点(℃)。)
此外,满足式1关系的所述粘合剂颗粒和所述间隔物颗粒还可满足下式2和3。
【式2】
120℃≤Tmc≤300℃
(Tmc是所述粘合剂颗粒的熔点(℃)。)
【式3】
200℃≤Tms≤5000℃
(Tms是所述间隔物颗粒的熔点(℃)。)
另外,在本发明的各向异性导电粘合剂中,所述粘合剂颗粒的平均颗粒直径可大于所述间隔物颗粒的平均颗粒直径,并且所述粘合剂颗粒和所述间隔物颗粒的平均颗粒直径可彼此独立地是3μm-100μm。
为了大规模生产、制造成本和选择性导电,所述间隔物颗粒可为非导电颗粒。
为了接触电阻,当电子部件互连时,所述间隔物颗粒可为导电颗粒。
为了大规模生产、制造成本、选择性传导和接触电阻,间隔物颗粒可为混合颗粒,其包括导电颗粒和非导电颗粒的混合物。
另外,在本发明的各向异性导电粘合剂中,所述绝缘聚合物树脂可为热固性聚合物树脂或热塑性聚合物树脂。当所述绝缘聚合物树脂是热固性聚合物树脂时,则通过所施加的超声波可使该热固性聚合物树脂固化,并且可使所述导电的粘合剂颗粒熔化。此外,当所述绝缘聚合物树脂是热塑性聚合物树脂时,则可使该热塑性聚合物树脂熔化,并且可使所述导电的粘合剂颗粒熔化。
同时,在其中向所述各向异性导电粘合剂施加超声波的单一方法中,在使所述热固性聚合物树脂固化或者使所述热塑性聚合物树脂熔化的同时,可使在根据本发明的各向异性导电粘合剂内的导电的粘合剂颗粒熔接(weld)。
另外,在本发明的各向异性导电粘合剂中,所述各向异性导电粘合剂可含有5-30重量%的所述粘合剂颗粒,和1-50重量%的所述间隔物颗粒。
另外,在本发明的各向异性导电粘合剂中,所述粘合剂颗粒可为作为焊料合金(solder alloy)的Pb基合金、Sn基合金、Sn-Bi基合金、Sn-Zn基合金、Sn-Ag基合金、Sn-Ag-Au基合金、或这些合金的混合物。
优选地,所述粘合剂颗粒可为无铅焊料,其中该无铅焊料满足欧盟的RoHS-6(危害性物质限制(Restriction of Hazardous Substances))指令。
更优选地,所述粘合剂颗粒可为作为焊料合金的Pb基合金、Sn基合金、Sn-Bi基合金、Sn-Zn基合金、Sn-Ag基合金、Sn-Ag-Au基合金、或这些合金的混合物。
另外,在本发明的各向异性导电粘合剂中,所述间隔物颗粒可为选自如下的至少一种非导电颗粒:聚合物颗粒,包括环氧树脂、聚酰亚胺、硅树脂、丙烯酸类树脂、聚酯、聚砜和聚苯乙烯;和陶瓷颗粒,包括氧化铝、氧化硅、氮化硅、氧化钛和金刚石;或者所述间隔物颗粒可为选自如下的至少一种导电颗粒:涂覆有金属的聚合物、银、金、铜、镍、碳、和本征导电聚合物。
所述各向异性导电粘合剂可为各向异性导电糊(ACP)或各向异性导电膜,优选各向异性导电膜。
所述绝缘聚合物树脂可为热固性聚合物树脂或热塑性聚合物树脂,并且通过施加超声波,可使所述热固性聚合物树脂固化,或者可使所述热塑性聚合物树脂和所述粘合剂颗粒熔化。此外,通过所施加的压力和超声波,可使该熔化的粘合剂颗粒与选自所述第一电极和所述第二电极中的至少一个电极进行表面接触。因此,本发明的各向异性导电粘合剂具有高的可靠性。
通过所述粘合剂颗粒的熔化,所述粘合剂颗粒可与所述第一电极或所述第二电极的电极材料合金化,并且详细而言,所述粘合剂颗粒可在选自所述第一电极或所述第二电极的一个或多个电极之间的界面处合金化。
另外,本发明的各向异性导电粘合剂可不包含用于使所述导电颗粒熔化的还原剂。
根据本发明的另一实施方案,使用用于超声波粘合的各向异性导电粘合剂将电子部件互连的方法包括:(a)在第一电子部件的连接部分的电极的上部部分之上形成上述实施方案的各向异性导电粘合剂,其中,在所述第一电子部件上形成有所述连接部分的电极以用于同种(homogenous)或异种(heterogeneous)电子部件的电互连;和(b)使所述第一电子部件的连接部分的电极和所述第二电子部件的连接部分的电极互连,包括:通过将所述第二电子部件的连接部分的电极排列和堆叠在所述第一电子部件的连接部分的电极的上侧而形成包含所述第一电子部件、所述各向异性导电粘合剂和所述第二电子部件的叠层体(laminate),其中所述各向异性导电粘合剂在所述电极之间;通过向所述叠层体施加超声波振动和压力而引起包含在所述各向异性导电粘合剂中的绝缘的热固性或热塑性聚合物树脂的塑性变形;通过根据所述塑性变形的所述聚合物树脂的自加热使包含在所述各向异性导电粘合剂中的所述聚合物树脂固化或熔化;和使包含在所述各向异性导电粘合剂中的所述粘合剂颗粒熔化。
另外,在根据本发明的电子部件互连方法中,在步骤(b)中,在用于超声波粘合的各向异性导电粘合剂内,通过所施加的超声波,可使所述热固性聚合物树脂固化或者可使所述热塑性聚合物树脂熔化,并且可使所述粘合剂颗粒熔化。
另外,在根据本发明的电子部件互连方法中,由所述热固性聚合物树脂的自加热引起的所述各向异性导电粘合剂的温度可通过压力,超声波的频率、振幅、功率和驱动时间,或它们的组合来控制。
在这种情况下,由于步骤(b)中所施加的超声波,所述各向异性导电粘合剂的温度可在120-300℃的范围之内。
附图说明
图1A和1B是说明使用根据常规技术的各向异性导电粘合剂将两个电子部件互连的方法的流程图;
图2是说明根据本发明的用于超声波粘合的各向异性导电粘合剂的图;和
图3是说明使用根据本发明的用于超声波粘合的各向异性导电粘合剂将电子部件互连的方法的流程图。
具体实施方式
在下文中,将参照附图详细地描述根据本发明的各向异性导电粘合剂和使电子部件互连的方法的示例性实施方案。然而,本发明可以不同形式体现,且不应解释为限于此处所阐述的实施方案。相反,提供这些实施方案以使得本公开内容透彻和完整,并将本发明的范围充分地传达给本领域技术人员。
在整个本公开内容中,在本发明的各附图和实施方式中,相同的附图标记始终是指相同的部件。
在这种情况下,在本文中所描述的技术和科学术语中,如果没有描述不同的定义,则其意味着本发明所属领域的技术人员通常能够理解本发明。此外,在说明书和附图中,将省略其解释将导致本发明要点变得不必要地模糊的已知特征和结构。
根据本发明,各向异性导电粘合剂包括绝缘聚合物树脂430、粘合剂颗粒410和熔点高于所述粘合剂颗粒的熔点的间隔物颗粒420。此外,在该用于超声波粘合的各向异性导电粘合剂中,通过向所述各向异性导电粘合剂施加超声波,可使聚合物树脂430固化或熔化。
所述绝缘聚合物树脂可为热固性聚合物树脂或热塑性聚合物树脂,并且优选是热固性聚合物树脂。在下文中,将基于热固性聚合物树脂,参考图2和图3来描述本发明。在以下讨论中,在其中所述聚合物树脂是热塑性聚合物树脂而不是热固性聚合物树脂的情况下,显而易见的是,除了通过施加超声波实现热塑性聚合物树脂的熔化而不是其固化之外,可保持本发明的主要思想。
超声波的施加意味着将超声波振动施加至各向异性导电粘合剂400,并且该超声波振动包括伴有预定压力的振动。
施加至各向异性导电粘合剂400的超声波引起各向异性导电粘合剂400中所含的聚合物树脂430的塑性变形,并且通过所述塑性变形使聚合物树脂430自加热。
通过聚合物树脂430基于超声波的自加热,使各向异性导电粘合剂400的温度升高到高于聚合物树脂430的固化温度。
根据本发明的各向异性导电粘合剂400可为用于超声波粘合的各向异性导电粘合剂400,其中,通过上述超声波振动进行粘合剂400的固化。此外,各向异性导电粘合剂400包括间隔物颗粒,所述间隔物颗粒具有高于粘合剂颗粒410的熔点。
如图2中所示,粘合剂颗粒410是在当施加超声波时所产生的热中熔化的导电颗粒,和间隔物颗粒420是即使在施加超声波时也仍然保持固态的导电或非导电颗粒。
当电子部件通过使用根据本发明的各向异性导电粘合剂400互连时,在作为连接对象的电子部件的两个连接电极110和310之间的粘合剂颗粒410通过由各向异性导电粘合剂400产生的热而熔化,并与连接电极110和310以表面接触的方式熔接。
因此,连接电极110和310与熔化的粘合剂颗粒410’具有非常低的接触电阻。另外,在连接电极110和310与熔化的粘合剂颗粒410’中,大电流能够稳定地流过,并牢固地实现了物理连接。另外,粘合剂颗粒410在与所述第一电极或第二电极的电极材料的界面处合金化,从而具有更低的接触电阻和更高的界面粘合。
由于间隔物颗粒420具有即使在向其施加超声波时也保持固态的特性,因此在施加超声波时,间隔物颗粒420耐受外部压力。
可通过间隔物颗粒420防止作为连接对象的电子部件的两个连接电极110和310以物理方式面对彼此。因此,电流能够在选择的位置流过。此外,可使粘合剂颗粒410’熔化并且与连接部分电极110和310进行表面接触,同时保持恒定形状。
如上所述,在根据本发明的用于超声波粘合的各向异性导电粘合剂400中,通过施加超声波,可使所述热固性聚合物树脂固化(430’),并且可使所述粘合剂颗粒熔化(410’)。
所述聚合物树脂可为在100-300℃的温度下固化的树脂,优选环氧树脂、聚酰亚胺树脂、丙烯酸类树脂、聚酯树脂、聚砜树脂、聚酰亚胺树脂、聚酯树脂、或它们的混合物。
当各向异性导电粘合剂400自加热时,希望的是,使粘合剂颗粒410稳定地熔化并且基于间隔物颗粒420的熔点(Tms,℃),粘合剂颗粒410具有低于0.9×Tms的熔点,使得间隔物颗粒420保持固态。在这种情况下,粘合剂颗粒410的熔点(Tmc,℃)是120-300℃,和间隔物颗粒420的熔点(Tms,℃)是200-5000℃,使得通过各向异性导电粘合剂400的自加热,可使聚合物树脂430固化和可使粘合剂颗粒410熔化。
粘合剂颗粒410和间隔物颗粒420的平均颗粒直径可彼此独立地是3μm-100μm。在这种情况下,就连接电极110和310与粘合剂颗粒410的有效熔接而言,粘合剂颗粒410的平均颗粒直径可大于间隔物颗粒420的平均颗粒直径。
间隔物颗粒420可为导电或非导电颗粒,或者导电颗粒和非导电颗粒的混合物。
当间隔物颗粒420是导电颗粒时,连接电极110和310可为更稳定导电的,和当间隔物颗粒420是非导电颗粒时,能够改善连接电极110和310的导电选择性。
优选地,各向异性导电粘合剂400可含有5-30重量%的粘合剂颗粒410和1-20重量%的间隔物颗粒420。
另外,优选的是,粘合剂颗粒410是无铅焊料颗粒,并且详细而言,是Pb基合金、Sn基合金、Sn-Bi基合金、Sn-Zn基合金、Sn-Ag基合金、Sn-Ag-Au基合金、或这些合金的混合物。
当间隔物颗粒420是非导电颗粒时,优选的是选择环氧树脂、聚酰亚胺、硅树脂、丙烯酸类树脂、聚酯、聚砜、氧化铝、氧化硅、氮化硅、氧化钛、金刚石、或它们的混合物,和当间隔物颗粒420是导电颗粒时,优选的是选择涂覆有金属的聚合物、银、金、铜、镍、碳、本征导电聚合物、或它们的混合物。
在根据本发明的各向异性导电粘合剂400中,可通过超声波的施加非常快速且均匀地进行聚合物树脂的固化和导电的粘合剂颗粒的熔化。另外,因为可通过压力和超声波的施加而容易地使该熔化的粘合剂颗粒熔接,所以它们可没有氧化,因此不包含还原剂。
如上所述的根据本发明的各向异性导电粘合剂400可为膜类型或糊类型,和优选是各向异性导电膜。
图3是说明通过使用根据本发明的各向异性导电粘合剂400将电子部件互连的方法的流程图。在基于图3对根据本发明的电子部件互连方法的说明中,因为根据本发明的各向异性导电粘合剂400的主要思想与上述说明的相同,所以省去其说明。
在第一电极110的表面上形成各向异性导电粘合剂400,所述第一电极是作为连接对象的第一电子部件100的连接电极。
当各向异性导电粘合剂400是膜类型时,可将该各向异性导电膜附着于第一电极100的表面。另外,当各向异性导电粘合剂400是糊类型时,可使用丝网印刷、旋涂或者刮涂来涂覆第一电极100的表面。
随后,排列和层叠作为另一连接对象的第二电子部件300,使得第一电极100可与第二电极310相对,该第二电极310是第二电子部件300的连接电极;然后将超声波施加于包括第一电子部件100、各向异性导电粘合剂400和第二电子部件300的叠层体。
在这种情况下,可将该叠层体设置在用于物理支持的载体1000的上部部分之上。另外,为了最小化来自各向异性导电粘合剂400的热损失,通过具有低热导率的绝热振动传递介质2000向该叠层体施加伴有压力的超声波振动。
通过所施加的超声波使各向异性导电粘合剂400中所含的聚合物树脂430塑性变形,并且产生热量。根据该自加热,可使聚合物树脂430固化,可使粘合剂颗粒410熔化,并且可使第一电极110和第二电极310彼此电连接。
根据本发明,可使用伴有预定压力的超声波而不是通过外部热源的热传递使聚合物树脂430自加热。因此,由于无论作为连接对象的电子部件的面积、和各向异性导电粘合剂的厚度如何,均可维持均匀的温度,所以可防止由不均匀热传导所引起的聚合物树脂的分解。另外,因为该加热仅出现在聚合物树脂中,所以可使由热膨胀上的差异引起的热应力最小化。
另外,所述聚合物树脂的固化可显著地快于外部源的热传递,并且各向异性导电粘合剂400的温度可得以快速和精确地控制。
在这种情况下,聚合物树脂430的自加热程度可通过压力,超声波的频率、振幅、功率和驱动时间,或其组合来控制,并且因此,各向异性导电粘合剂400的温度可得以快速和精确地控制。
为了使聚合物树脂430固化和使粘合剂颗粒410熔化,由于超声波的施加所引起的各向异性导电粘合剂的温度可为120-300℃。
将通常包含8μm尺寸的导电Ni颗粒的各向异性导电膜附着在两个电极之间,并且向其施加热和压力(150度,2MPa)。作为其电连接特性的测试的结果,可获得大约9.2毫欧姆的接触电阻。同时,根据本发明,分别使用20μm的共晶Sn/Bi焊料和8μm的Ni作为粘合剂颗粒和间隔物颗粒,并且施加超声波振动。作为在225℃温度下在两个电极之间的连接特性的测试结果,证实可获得约6.2毫欧姆的非常低的接触电阻。另外,证实了连接部分具有超过常用的各向异性导电膜两倍的高的可靠性,即便在121℃和2atm和100%的相对湿度下的严酷测试时也是如此。
根据本发明,在各向异性导电粘合剂和使用该各向异性导电粘合剂将电子部件互连的方法中,在各向异性导电粘合剂内的金属颗粒可通过由所施加的超声波产生的内部热量而部分地熔化,并且作为连接对象的两个电极可通过表面接触而不是点接触来连接。因此,在两个电极之间的接触电阻可显著地降低。另外,无论各向异性导电粘合剂的厚度和面积如何,均可非常精确且快速地控制内部热量范围(即各向异性导电粘合剂的温度),从而保持均匀的温度。此外,在各向异性导电粘合剂之内的金属材料可没有氧化,并且可使用各向异性导电粘合剂的内部热量。因此,可防止作为连接对象的电子部件的热变形,从而获得高可靠性。
虽然已针对具体实施方案对本发明进行了描述,但是对于本领域技术人员显而易见的是,在不脱离如在所附权利要求书中所定义的本发明的精神和范围的情况下,可进行各种变化和改进。
因此,所附权利要求意图涵盖落入该权利要求的界限或该界限的等同物内的所有变化和改进。
Claims (10)
1.用于超声波粘合的各向异性导电粘合剂,其电连接作为第一电子部件的连接部分的电极的第一电极和作为第二电子部件的连接部分的电极的第二电极,所述各向异性导电粘合剂包括:
绝缘聚合物树脂;
导电的粘合剂颗粒,其通过由施加至所述各向异性导电粘合剂的超声波产生的热而熔化;和
间隔物颗粒,其熔点高于所述粘合剂颗粒的熔点,
其中使所述粘合剂颗粒熔化并且与选自所述第一电极和所述第二电极的至少一个电极进行表面接触,和使所述第一电极和所述第二电极以通过所述间隔物颗粒在所述第一电极和所述第二电极之间所保持的恒定间隙电连接。
2.根据权利要求1的各向异性导电粘合剂,其中通过所施加的超声波引起所述聚合物树脂的塑性变形,并且通过根据所述塑性变形的聚合物树脂的自加热而使所述粘合剂颗粒熔化。
3.根据权利要求2的各向异性导电粘合剂,其中所述间隔物颗粒是这样的导电或非导电粒子:其在施加所述超声波时保持固态;抵抗当连接所述第一电子部件和所述第二电子部件时所施加的压力而保持所述第一电极和所述第二电极之间的间隙,使得熔化的粘合剂颗粒具有均匀的表观粘合;并且所述粘合剂颗粒通过所述粘合剂颗粒的熔化而与所述第一电极或所述第二电极的电极材料合金化。
4.根据权利要求2的各向异性导电粘合剂,其中所述粘合剂颗粒的平均颗粒直径大于所述间隔物颗粒的平均颗粒直径,并且所述粘合剂颗粒和所述间隔物颗粒的平均颗粒直径彼此独立地是3μm-100μm。
5.根据权利要求2的各向异性导电粘合剂,其中所述绝缘聚合物树脂是热固性聚合物树脂或热塑性聚合物树脂,和通过所施加的超声波,使所述热固性聚合物树脂固化或者使所述热塑性聚合物树脂熔化,并且使所述粘合剂颗粒熔化。
6.根据权利要求2的各向异性导电粘合剂,其中所述各向异性导电粘合剂包含5-30重量%的所述粘合剂颗粒和1-50重量%的所述间隔物颗粒。
7.根据权利要求6的各向异性导电粘合剂,其中所述粘合剂颗粒是作为焊料合金的Pb基合金、Sn基合金、Sn-Bi基合金、Sn-Zn基合金、Sn-Ag基合金和Sn-Ag-Au基合金、或这些合金的混合物。
8.根据权利要求7的各向异性导电粘合剂,其中所述间隔物颗粒是选自如下的至少一种非导电颗粒:聚合物颗粒,包括环氧树脂、聚酰亚胺、硅树脂、丙烯酸类树脂、聚酯、聚砜和聚苯乙烯;和陶瓷颗粒,包括氧化铝、氧化硅、氮化硅,氧化钛和金刚石;或者所述间隔物颗粒是选自如下的至少一种导电颗粒:涂覆有金属的聚合物、银、金、铜、镍、碳和本征导电聚合物。
9.使用用于超声波粘合的各向异性导电粘合剂来互连电子部件的方法,包括:
(a)在第一电子部件的连接部分的电极的上部部分之上形成权利要求1-8中任一项的各向异性导电粘合剂,其中,在所述第一电子部件上形成有所述连接部分的电极以用于同种或异种电子部件的电互连;和
(b)使所述第一电子部件的连接部分的电极和所述第二电子部件的连接部分的电极互连,包括:
通过将所述第二电子部件的连接部分的电极排列和堆叠在所述第一电子部件的连接部分的电极的上侧而形成包括所述第一电子部件、所述各向异性导电粘合剂和所述第二电子部件的叠层体,其中所述各向异性导电粘合剂在所述电极之间;
通过向所述叠层体施加超声波振动和压力而引起包含在所述各向异性导电粘合剂中的绝缘的热固性或热塑性聚合物树脂的塑性变形;
通过根据该塑性变形的所述聚合物树脂的自加热使包含在所述各向异性导电粘合剂中的所述聚合物树脂固化或熔化;和
使包含在所述各向异性导电粘合剂中的粘合剂颗粒熔化。
10.根据权利要求9的互连方法,其中由所述聚合物树脂的自加热引起的所述各向异性导电粘合剂的温度通过压力,所述超声波的频率、振幅、功率和驱动时间,或它们的组合来控制。
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