Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab

Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab

With the rapid adoption of dual-damascene copper (CuDD) processing as semiconductor device features shrink into deep-submicron process, the copper electrochemical plating (ECP) is emerging as one choice for Cu metallization in multilevel interconnects. Copper processing has brought about an increase...

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Main Author: Abdul Wahab, Yasmin
Format: Thesis
Language:English
Published: 2008
Subjects:
Applications of electric power
Electronics
Online Access:http://ir.uitm.edu.my/id/eprint/27660/
http://ir.uitm.edu.my/id/eprint/27660/1/TM_YASMIN%20ABDUL%20WAHAB%20EE%2008_5.pdf
id uitm-27660
recordtype eprints
spelling uitm-276602020-01-24T01:06:31Z http://ir.uitm.edu.my/id/eprint/27660/ Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab Abdul Wahab, Yasmin Applications of electric power Electronics With the rapid adoption of dual-damascene copper (CuDD) processing as semiconductor device features shrink into deep-submicron process, the copper electrochemical plating (ECP) is emerging as one choice for Cu metallization in multilevel interconnects. Copper processing has brought about an increased need to understand and predict desirable properties of the physical vapor deposition barrier and seed deposition, electroplating, chemical-mechanical polishing (CMP) as well as any thermal treatments that required stabilizing and annealing copper. Instead, defectivity is gaining momentum in Cu integration due to new Cu interconnects schemes and increasingly stringent process control requirements post some serious challenges in modem microelectronics devices. As a result, defectivity has driven a significant rise in process failure rates and has had a strong impact on the back-end-of- line (BEOL) processes. This project investigated the characterization of defects generated by copper electroplating process on He In-Situ and furnace annealed electro-plated copper films on p-type bare silicon wafers. A post ECP He In-Situ anneal processing was carried out over a 60°C to 180°C temperature range, with anneal duration times ranging from 6 seconds to 2 hours and the wafers began to be ramped at over 100°C with less than a minute soak time. For the furnace anneal, the wafers were loaded for almost an hour with less than 200 °C soak temperature. Specifically, impacts originated from the defects such as influences on yield lost are being investigated. This study improved a novel procedure of defect measurement, defect source analysis and static code analysis that was employed to identify the different types of defects generated progressively by post copper barrier seed, electrochemical plating, anneals and chemical mechanical planarization. To characterize the modes of action of defects in such processes, we employed constructive and analytical methods to analyze the interaction between defects from incoming and electroplating process and analyzing with scanning electron microscope (SEM) and covers process parameters perspective. Based on the design of experiments data, a new defect characterization scheme that takes defect generation mechanism and potential source into account has been proposed. The proposed scheme improves to differentiate between plating and CMP induced defects and flaws that were generally categorized as missing copper could have resulted from corrosion or scratches during polishing process from incomplete filling of fine features after plating. The study indicates the potential of right inspection and analysis approach of defects characterization can improve entire process modules and indirectly make CuDD technology production worthy. 2008 Thesis NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/27660/1/TM_YASMIN%20ABDUL%20WAHAB%20EE%2008_5.pdf Abdul Wahab, Yasmin (2008) Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab. Masters thesis, Universiti Teknologi MARA.
repository_type Digital Repository
institution_category Local University
institution Universiti Teknologi MARA
building UiTM Institutional Repository
collection Online Access
language English
topic Applications of electric power
Electronics
spellingShingle Applications of electric power
Electronics
Abdul Wahab, Yasmin
Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab
description With the rapid adoption of dual-damascene copper (CuDD) processing as semiconductor device features shrink into deep-submicron process, the copper electrochemical plating (ECP) is emerging as one choice for Cu metallization in multilevel interconnects. Copper processing has brought about an increased need to understand and predict desirable properties of the physical vapor deposition barrier and seed deposition, electroplating, chemical-mechanical polishing (CMP) as well as any thermal treatments that required stabilizing and annealing copper. Instead, defectivity is gaining momentum in Cu integration due to new Cu interconnects schemes and increasingly stringent process control requirements post some serious challenges in modem microelectronics devices. As a result, defectivity has driven a significant rise in process failure rates and has had a strong impact on the back-end-of- line (BEOL) processes. This project investigated the characterization of defects generated by copper electroplating process on He In-Situ and furnace annealed electro-plated copper films on p-type bare silicon wafers. A post ECP He In-Situ anneal processing was carried out over a 60°C to 180°C temperature range, with anneal duration times ranging from 6 seconds to 2 hours and the wafers began to be ramped at over 100°C with less than a minute soak time. For the furnace anneal, the wafers were loaded for almost an hour with less than 200 °C soak temperature. Specifically, impacts originated from the defects such as influences on yield lost are being investigated. This study improved a novel procedure of defect measurement, defect source analysis and static code analysis that was employed to identify the different types of defects generated progressively by post copper barrier seed, electrochemical plating, anneals and chemical mechanical planarization. To characterize the modes of action of defects in such processes, we employed constructive and analytical methods to analyze the interaction between defects from incoming and electroplating process and analyzing with scanning electron microscope (SEM) and covers process parameters perspective. Based on the design of experiments data, a new defect characterization scheme that takes defect generation mechanism and potential source into account has been proposed. The proposed scheme improves to differentiate between plating and CMP induced defects and flaws that were generally categorized as missing copper could have resulted from corrosion or scratches during polishing process from incomplete filling of fine features after plating. The study indicates the potential of right inspection and analysis approach of defects characterization can improve entire process modules and indirectly make CuDD technology production worthy.
format Thesis
author Abdul Wahab, Yasmin
author_facet Abdul Wahab, Yasmin
author_sort Abdul Wahab, Yasmin
title Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab
title_short Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab
title_full Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab
title_fullStr Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab
title_full_unstemmed Characterization of defects generated by copper electrochemical plating process on silicon wafers / Yasmin Abdul Wahab
title_sort characterization of defects generated by copper electrochemical plating process on silicon wafers / yasmin abdul wahab
publishDate 2008
url http://ir.uitm.edu.my/id/eprint/27660/
http://ir.uitm.edu.my/id/eprint/27660/1/TM_YASMIN%20ABDUL%20WAHAB%20EE%2008_5.pdf
first_indexed 2023-09-18T23:18:46Z
last_indexed 2023-09-18T23:18:46Z
_version_ 1777419290006257664

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