Large-Scale Etching of Silicon Nitride Using a Linear ECR Plasma Source with Reciprocating Substrate Motion

2018 25th International Workshop on Active-Matrix Flatpanel Displays and Devices (AM-FPD) Pub Date : 2018-07-01 DOI:10.23919/AM-FPD.2018.8437378

Seong-Yong Kwon, Howon Yoon, YunSung Jang, SeungMin Shin, Seungjun Yi, M. Hong

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Abstract

We have etched 700 nm thick silicon nitride (SiNx) on 370×235 mm2 substrate using a linear electron cyclotron resonance (ECR) plasma source with reciprocating substrate motion. A mixture of NF3 and Ar gases was used as etch gas. The etching of SiN x was performed with and without reciprocating substrate motion and compared to each other. In the etching without reciprocating substrate motion, the etch rate was measured in 45 points, showed 17.5% uniformity and the average etch rate was 92 nm/min. For the etching with reciprocating substrate motion, 4% uniformity of etch rate and 72 nm/min etch rate were obtained in the same measuring points. Moreover, there were no stains left on 370×235 mm2 SiNx glass after the etching with reciprocating substrate motion. In this paper, the linear ECR plasma source with reciprocating substrate motion is proved to be suitable for large-sized substrates and is profitable due to high yield and low-cost manufacturing.

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基于衬底往复运动的线性ECR等离子体源大规模蚀刻氮化硅

我们使用具有往复衬底运动的线性电子回旋共振(ECR)等离子体源在370×235 mm2衬底上蚀刻了700 nm厚的氮化硅(SiNx)。采用NF3和Ar气体的混合物作为蚀刻气体。在有和没有衬底往复运动的情况下进行了sinx的蚀刻，并相互比较。在无衬底往复运动的情况下，蚀刻速率为45点，均匀性为17.5%，平均蚀刻速率为92 nm/min。对于衬底往复运动的蚀刻，在相同的测点上，蚀刻速率均匀性为4%，蚀刻速率为72 nm/min。而且，在衬底往复运动蚀刻后，370×235 mm2 SiNx玻璃上没有留下污渍。本文通过实验证明，具有衬底往复运动的线性ECR等离子体源适用于大尺寸衬底，具有高成材率和低制造成本的优点。

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2018 25th International Workshop on Active-Matrix Flatpanel Displays and Devices (AM-FPD)

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