Polyimide based temporary wafer bonding technology for high temperature compliant TSV backside processing and thin device handling

K. Zoschke, T. Fischer, M. Topper, T. Fritzsch, O. Ehrmann, T. Itabashi, M. Zussman, M. Souter, H. Oppermann, K. Lang
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引用次数: 31

Abstract

Temporary wafer bonding for thin wafer processing is one of the key technologies of 3D system integration. In this context we introduce the polyimide material HD3007 which is suitable for temporary bonding of silicon wafers to carrier wafers by using a thermo compression process. Coating and bonding processes for 200 mm and 150 mm wafers with and without topography as well as two de-bonding concepts which are based on laser assisted and solvent assisted release processes are presented. Based on tests with temporary bonded 200 mm wafers, we found a very high compatibility of the bonded compound wafers with standard WLP process equipment and work flows suitable for backside processing of “via first” TSV wafers. Processes like silicon back grinding to a remaining thickness of 60 μm, dry etching, wet etching, CMP, PVD, spin coating of resists and polymers, lithography, electro plating and polymer curing were evaluated and are described in detail. Even at high temperatures up to 300°C and vacuum levels up to 10-4 mbar, the temporary bond layer was stable and no delamination occurred. 60 μm thin wafers could be processed and de-bonded without any problems using both release methods. De-bonding times of less than a couple minutes can be realized with laser assisted de-bonding and several minutes with a solvent based release. Compared to glues of other temporary handling systems, the proposed material offers the highest temperature budget for thin wafer backside processing as well as fast and easy de-bonding at room temperature.
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基于聚酰亚胺的临时晶圆键合技术,用于高温兼容TSV背面加工和薄器件处理
用于薄晶片加工的临时晶圆键合是三维系统集成的关键技术之一。在这种情况下,我们介绍了聚酰亚胺材料HD3007,它适用于硅晶片和载流子晶片的临时粘接,采用热压缩工艺。介绍了200 mm和150 mm硅片的涂覆和键合工艺,以及基于激光辅助和溶剂辅助释放工艺的两种脱键概念。通过对临时粘接的200mm晶圆的测试,我们发现粘接的复合晶圆与标准的WLP工艺设备和工作流程具有非常高的兼容性,适用于“通孔优先”TSV晶圆的背面加工。对硅背磨至剩余厚度60 μm、干法蚀刻、湿法蚀刻、CMP、PVD、抗蚀剂和聚合物自旋镀膜、光刻、电镀和聚合物固化等工艺进行了评价和详细描述。即使在高达300°C的高温和高达10-4 mbar的真空度下,临时粘结层也很稳定,不会发生分层。使用这两种释放方法都可以对60 μm薄晶圆进行加工和脱粘。用激光辅助脱键可以实现不到几分钟的脱键时间,用溶剂基释放可以实现几分钟的脱键时间。与其他临时处理系统的胶水相比,该材料提供了薄晶片背面处理的最高温度预算,以及在室温下快速简便的脱粘。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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