This paper explores and demonstrates a novel technique to conformally coat solution-derived electrodes and dielectric films over Through-Silicon-Via (TSV) or Through-Silicon Trench (TST) structures. In this technique, precursor solution for electrode or dielectric coatings is dispensed on the top of a TSV wafer and infiltrated through the via by creating a pressure gradient. Two material systems used in capacitors, Lanthanum Nickel Oxide (LNO) as electrode and Lead Zirconate Titanate (PZT) as dielectric, were deposited on the TSV surfaces using this technique. SEM cross-section analysis showed that the vacuum-infiltration can be extended to conformally coat on trenches with aspect ratios of greater than 5. A planar capacitor with density of 3 μF/cm2 and low leakage was fabricated to demonstrate the material compatibility. Using this technique, a trench capacitor device can be fabricated with an all-solution coating process, without involving any expensive deposition tools. This can thus eliminate costly platinum electrodes that are frequently required to yield high permittivity PZT films. This technique can also address the through-put limitations of today''s conformal deposition technologies such as sputtering, Chemical Vapor Deposition (CVD) and Atomic Layer Deposition (ALD). The tool and process can also be applied to other 3D silicon structures where conformal ceramic coatings are needed.
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机译:本文探索并演示了一种新技术,可以在硅通孔(TSV)或硅通孔(TST)结构上共形涂覆溶液衍生的电极和介电膜。在该技术中,用于电极或电介质涂层的前体溶液分配在TSV晶圆的顶部,并通过产生压力梯度而通过通孔渗透。使用此技术,在电容器中使用了两种材料系统,氧化镧镍(LNO)作为电极和锆钛酸铅(PZT)作为电介质,沉积在TSV表面上。扫描电镜(SEM)截面分析表明,可以扩大真空渗入,以保形地涂覆在沟槽上,长宽比大于5。制造了密度为3μF/ cm 2 且低泄漏的平面电容器证明材料的兼容性。使用这种技术,可以采用全溶液涂覆工艺制造沟槽电容器,而无需使用任何昂贵的沉积工具。因此,这可以消除昂贵的铂电极,而铂电极经常需要产生高介电常数的PZT膜。该技术还可以解决当今的保形沉积技术的吞吐量限制,例如溅射,化学气相沉积(CVD)和原子层沉积(ALD)。该工具和工艺还可应用于需要保形陶瓷涂层的其他3D硅结构。
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