Investigating the Nucleation of AlO<sub>x</sub> and HfO<sub>x</sub> ALD on Polyimide: Influence of Plasma Activation

Investigating the Nucleation of AlO<sub>x</sub> and HfO<sub>x</sub> ALD on Polyimide: Influence of Plasma Activation

There is an increasing interest in atomic layer deposition (ALD) on polymers for the development of membranes, electronics, (3D) nanostructures and specially for the development of hermetic packaging of the new generation of flexible implantable micro-devices. This evolution demands a better underst...

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Bibliographic Details
Main Authors: Laura Astoreca, David Schaubroeck, Parinaz Saadat Esbah Tabaei, Rouba Ghobeira, Maaike Op de Beeck, Rino Morent, Herbert De Smet, Nathalie De Geyter
Format: article
Language:EN
Published: MDPI AG 2021
Subjects:
ALD
nucleation
Al<sub>2</sub>O<sub>3</sub>
HfO<sub>2</sub>
polyimide
plasma
Engineering (General). Civil engineering (General)
TA1-2040
Online Access:https://doaj.org/article/1740f17d106f4acfb361c81bbefa0f4c
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Summary:There is an increasing interest in atomic layer deposition (ALD) on polymers for the development of membranes, electronics, (3D) nanostructures and specially for the development of hermetic packaging of the new generation of flexible implantable micro-devices. This evolution demands a better understanding of the ALD nucleation process on polymers, which has not been reported in a visual way. Herein, a visual study of ALD nucleation on polymers is presented, based on the different dry etching speeds between polymers (fast) and metal oxides (slow). An etching process removes the polyimide with the nucleating ALD acting as a mask, making the nucleation features visible through secondary electron microscopy analyses. The nucleation of both Al<sub>2</sub>O<sub>3</sub> and HfO<sub>2</sub> on polyimide was investigated. Both materials followed an island-coalescence nucleation. First, local islands formed, progressively coalescing into filaments, which connected and formed meshes. These meshes evolved into porous layers that eventually grew to a full layer, marking the end of the nucleation. Cross-sections were analyzed, observing no sub-surface growth. This approach was used to evaluate the influence of plasma-activating polyimide on the nucleation. Plasma-induced oxygen functionalities provided additional surface reactive sites for the ALD precursors to adsorb and start the nucleation. The presented nucleation study proved to be a straightforward and simple way to evaluate ALD nucleation on polymers.

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