Modification of organic underlayers by plasma during dry etching and its effect on the film properties

Soojung Leem, Jae Hwan Sim, Youngeun Bae
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Abstract

The manufacturing process of advanced logic devices has become ever more challenging than before due to continued shrinkage in dimensions from scaling down and increased complexity from the integration of new transistor structures such as gate-all-around (GAA). Underlayers are utilized as a mask to protect targeted device structures while selected areas of deposited metal is removed by wet etchant during replacement metal gate (RMG) process to construct the transistor. Reported studies describing the developmental strategies for such underlayers have been mostly focused on how to strengthen the adhesion towards the substrate with the designed film properties. In this paper, we identify the effect of plasma during dry etching of the RMG process as the factor to be considered in designing of the wet etch resistant underlayer. Physical and chemical properties of organic films after dry etching with plasmas of different gases have been investigated using various analysis techniques, and the subsequent effect of plasma-modification on the film properties such as resistance towards wet chemicals for various films was evaluated.
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干刻蚀过程中等离子体对有机底层的改性及其对薄膜性能的影响
先进逻辑器件的制造过程变得比以前更具挑战性,因为尺寸不断缩小,以及新型晶体管结构(如栅极全能(GAA))的集成增加了复杂性。衬底层用作掩膜来保护目标器件结构,而在更换金属栅极(RMG)过程中,通过湿蚀刻去除沉积金属的选定区域以构建晶体管。已有的研究主要集中在如何利用设计的薄膜性能来增强对基材的粘附性。在本文中,我们确定了等离子体在RMG工艺干蚀刻过程中的影响,作为设计耐湿蚀刻底层时需要考虑的因素。利用各种分析技术研究了不同气体等离子体干蚀刻后有机薄膜的物理和化学性能,并评估了等离子体修饰对薄膜性能的后续影响,例如各种薄膜对湿化学品的抗性。
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