Microkinetic based growth and property modeling of plasma enhanced atomic layer deposition silicon nitride thin film-Reference-Cited by-同舟云学术

Microkinetic based growth and property modeling of plasma enhanced atomic layer deposition silicon nitride thin film

Published:2023-05-01 Issue:3 Volume:41 Page:
ISSN:0734-2101
Container-title:Journal of Vacuum Science & Technology A
language:en
Short-container-title:

Author:

Iwao Toshihiko¹^ORCID,Yang Tsung-Hsuan²^ORCID,Hwang Gyeong S.²³^ORCID,Ventzek Peter L. G.¹^ORCID

Affiliation:

1. Concept and Feasibility Laboratory, Tokyo Electron America, Inc. 1 , 2400 Grove Blvd., Austin 78741, Texas

2. Texas Materials Institute, The University of Texas at Austin 2 , 200 E Dean Keeton Str., Austin 78712, Texas

3. McKetta Department of Chemical Engineering, The University of Texas at Austin 3 , 200 E Dean Keeton Street, Austin 78712, Texas

Abstract

We demonstrate a microkinetic modeling framework which is a first principle-based surface reaction thermodynamics modeling methodology to describe the plasma-enhanced atomic layer deposition process of silicon nitride thin film formation. The results illustrating the relationship between silicon nitride growth per cycle (GPC) and quasi self-limiting behavior on both dichlorosilane precursor dose amount and plasma nitridation time are consistent with the experiment. Ultimately, GPC is limited to the equivalent of a half monolayer of a Si3N4 crystalline structure. Importantly, we have observed a strong correlation between subsurface NH terminated Si group concentration and HF wet etch rate by an experiment, which varies with substrate temperature.

Publisher

American Vacuum Society

Subject

Surfaces, Coatings and Films,Surfaces and Interfaces,Condensed Matter Physics

Link

https://pubs.aip.org/avs/jva/article-pdf/doi/10.1116/6.0002499/17304261/032410_1_6.0002499.pdf

Reference33 articles.

1. Characteristics and applications of plasma enhanced-atomic layer deposition

2. Plasma-Assisted Atomic Layer Deposition: Basics, Opportunities, and Challenges

3. Plasma-Enhanced Atomic-Layer Deposition of Nanometer-Thick SiNx Films Using Trichlorodisilane for Etch-Resistant Coatings

4. Atomic layer controlled deposition of silicon nitride and in situ growth observation by infrared reflection absorption spectroscopy

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