Boron diffused emitter etch back and passivation

Xiaoqiang Li, Longzhong Tao, Zhengyue Xia, Zhuojian Yang, Jingbing Dong, Wentao Song, Bin Zhang, R. Sidhu, G. Xing
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引用次数: 4

Abstract

In this study, a well-controlled etch-back technique was developed using HF and HNO3 mixture solution to remove the boron depletion layer caused by post-oxidation step. The etching rate can be manipulated by changing HF proportion; meanwhile the sheet resistance variation can be maintained smaller than 10% after etching back. Nitric acid oxidation of Si technique was used to passivate the boron emitter before and after etch back. The presence of the surface boron depletion layer makes the surface boron concentration lower, which is better for low Dit at the surface after passivation, while it can also introduce extra recombination by making the electron and hole concentration closer at the surface. PC1D was used to simulate the results for further understanding the recombination in the whole emitter region.
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硼扩散射极蚀刻回和钝化
在本研究中,开发了一种控制良好的蚀刻回蚀技术,利用HF和HNO3混合溶液去除后氧化步骤造成的硼耗尽层。通过改变HF的比例可以控制腐蚀速率;同时,蚀刻后的片材电阻变化可保持在10%以下。采用硝酸氧化硅技术对腐蚀前后的硼发射极进行钝化处理。表面硼耗尽层的存在使表面硼浓度降低,有利于钝化后表面低Dit,同时也可以通过使表面的电子和空穴浓度更接近而引入额外的复合。为了进一步了解整个发射极区域的复合情况,我们使用PC1D对结果进行了模拟。
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