薄切法生产无角薄晶圆的应力诱导层的比较研究

J. Serra, P. Bellanger, K. Lobato, R. Martini, M. Debucquoy, J. Poortmans
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引用次数: 5

摘要

晶圆片厚度的减少被视为降低成本的途径,这引起了人们对无切口损失的薄晶圆制备技术的兴趣。Slim-cut工艺[1]就是这些新技术之一,主要包括三个阶段:在单晶硅样品顶部沉积应力层的步骤,在硅样品上诱导应力并剥离薄硅层所需的加热步骤,以及清洁应力诱导层以获得适合制造太阳能电池的硅箔的第三步。该技术的主要问题之一在于找到一个应力层,该应力层能引起足够高的收缩,以便在不污染箔的情况下使硅片破裂。在这项工作中,我们展示了Slim-cut获得的薄箔之间的比较,使用三种不同的应力层:i)双丝网印刷银/铝层,ii)分配环氧浆料,iii)电沉积镍金属化。寿命测量结果表明,某些应力层虽然能够产生较大的应力,但严重降低了箔的寿命。
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Comparative study of stress inducing layers to produce kerfless thin wafers by the Slim-cut technique
The decrease in wafer thickness seen as a route to cost reductions has raised a growing interest in techniques that allow the preparation of thin wafers without kerf loss. The Slim-cut process [1] is one of these new techniques and comprises mainly three stages: a stress layer deposition step on the top of a monocrystalline silicon sample, a heating step necessary to induce the stress on the silicon sample and detach a thin silicon layer, and a third step to clean the stress-inducing layer to obtain a silicon foil adapted to the fabrication of solar cells. One of the major problems of this technology consists in finding a stress layer that induces a sufficiently high contraction in order to achieve a rupture of the silicon without contamination of the foil. In this work we present a comparison between thin foils obtained by Slim-cut, using three different stress layers: i) a double screen printed Silver/Aluminum layer, ii) a dispensed epoxy paste, iii) an electrodeposited Nickel metallization. Results on lifetime measurements indicate that some of the stress layers, although capable of inducing large stress, severely degrade lifetime of the foil.
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