Area-Selective Atomic Layer Deposition on Functionalized Graphene Prepared by Reversible Laser Oxidation

Kamila K. Mentel; Aleksei V. Emelianov; Anish Philip; Andreas Johansson; Maarit Karppinen; Mika Pettersson

doi:10.1002/admi.202201110

Area-Selective Atomic Layer Deposition on Functionalized Graphene Prepared by Reversible Laser Oxidation

Kamila K. Mentel, Aleksei V. Emelianov, Anish Philip, Andreas Johansson, Maarit Karppinen^*, Mika Pettersson^*

^*Corresponding author for this work

University of Jyväskylä

Research output: Contribution to journal › Article › Scientific › peer-review

15 Citations (Scopus)

81 Downloads (Pure)

Abstract

Area-selective atomic layer deposition (ALD) is a promising “bottom-up” alternative to current nanopatterning techniques. While it has been successfully implemented in traditional microelectronic processes, selective nucleation of ALD on 2D materials has so far remained an unsolved challenge. In this article, a precise control of the selective deposition of ZnO on graphene at low temperatures (<250 °C) is demonstrated. Maskless femtosecond laser writing is used to locally activate predefined surface areas (down to 300 nm) by functionalizing graphene to achieve excellent ALD selectivity (up to 100%) in these regions for 6-nm-thick ZnO films. The intrinsic conductive properties of graphene can be restored by thermal annealing at low temperature (300 °C) without destroying the deposited ZnO patterns. As the graphene layer can be transferred onto other material surfaces, the present patterning technique opens new attractive ways for various applications in which the functionalized graphene is utilized as a template layer for selective deposition of desired materials.

Original language	English
Article number	2201110
Number of pages	9
Journal	Advanced Materials Interfaces
Volume	9
Issue number	29
Early online date	3 Sept 2022
DOIs	https://doi.org/10.1002/admi.202201110
Publication status	Published - 13 Oct 2022
MoE publication type	A1 Journal article-refereed

Funding

The authors acknowledge fundings from the Academy of Finland (Flagship PREIN and grant no. 311330), and from the Jane and Aatos Erkko Foundation. The authors like to acknowledge the use of the RawMatters Finland Infrastructure (RAMI) at Aalto University. The authors acknowledge Olli Rissanen for synthetizing the graphene samples and Erich See for proofreading the manuscript.

Keywords

atomic layer deposition
graphene
surface engineering
two-photon oxidation

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10.1002/admi.202201110Licence: CC BY-NC

Area-Selective Atomic Layer Deposition on Functionalized Graphene Prepared by Reversible Laser OxidationFinal published version, 1.92 MBLicence: CC BY-NC

Cite this

@article{b8ed5d8405164995949174fd58d2ce6c,

title = "Area-Selective Atomic Layer Deposition on Functionalized Graphene Prepared by Reversible Laser Oxidation",

abstract = "Area-selective atomic layer deposition (ALD) is a promising “bottom-up” alternative to current nanopatterning techniques. While it has been successfully implemented in traditional microelectronic processes, selective nucleation of ALD on 2D materials has so far remained an unsolved challenge. In this article, a precise control of the selective deposition of ZnO on graphene at low temperatures (<250 °C) is demonstrated. Maskless femtosecond laser writing is used to locally activate predefined surface areas (down to 300 nm) by functionalizing graphene to achieve excellent ALD selectivity (up to 100\%) in these regions for 6-nm-thick ZnO films. The intrinsic conductive properties of graphene can be restored by thermal annealing at low temperature (300 °C) without destroying the deposited ZnO patterns. As the graphene layer can be transferred onto other material surfaces, the present patterning technique opens new attractive ways for various applications in which the functionalized graphene is utilized as a template layer for selective deposition of desired materials.",

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author = "Mentel, \{Kamila K.\} and Emelianov, \{Aleksei V.\} and Anish Philip and Andreas Johansson and Maarit Karppinen and Mika Pettersson",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Advanced Materials Interfaces published by Wiley-VCH GmbH.",

year = "2022",

month = oct,

day = "13",

doi = "10.1002/admi.202201110",

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AU - Mentel, Kamila K.

AU - Emelianov, Aleksei V.

AU - Philip, Anish

AU - Johansson, Andreas

AU - Karppinen, Maarit

AU - Pettersson, Mika

PY - 2022/10/13

Y1 - 2022/10/13

N2 - Area-selective atomic layer deposition (ALD) is a promising “bottom-up” alternative to current nanopatterning techniques. While it has been successfully implemented in traditional microelectronic processes, selective nucleation of ALD on 2D materials has so far remained an unsolved challenge. In this article, a precise control of the selective deposition of ZnO on graphene at low temperatures (<250 °C) is demonstrated. Maskless femtosecond laser writing is used to locally activate predefined surface areas (down to 300 nm) by functionalizing graphene to achieve excellent ALD selectivity (up to 100%) in these regions for 6-nm-thick ZnO films. The intrinsic conductive properties of graphene can be restored by thermal annealing at low temperature (300 °C) without destroying the deposited ZnO patterns. As the graphene layer can be transferred onto other material surfaces, the present patterning technique opens new attractive ways for various applications in which the functionalized graphene is utilized as a template layer for selective deposition of desired materials.

AB - Area-selective atomic layer deposition (ALD) is a promising “bottom-up” alternative to current nanopatterning techniques. While it has been successfully implemented in traditional microelectronic processes, selective nucleation of ALD on 2D materials has so far remained an unsolved challenge. In this article, a precise control of the selective deposition of ZnO on graphene at low temperatures (<250 °C) is demonstrated. Maskless femtosecond laser writing is used to locally activate predefined surface areas (down to 300 nm) by functionalizing graphene to achieve excellent ALD selectivity (up to 100%) in these regions for 6-nm-thick ZnO films. The intrinsic conductive properties of graphene can be restored by thermal annealing at low temperature (300 °C) without destroying the deposited ZnO patterns. As the graphene layer can be transferred onto other material surfaces, the present patterning technique opens new attractive ways for various applications in which the functionalized graphene is utilized as a template layer for selective deposition of desired materials.

KW - atomic layer deposition

KW - graphene

KW - surface engineering

KW - two-photon oxidation

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VL - 9

JO - Advanced Materials Interfaces

JF - Advanced Materials Interfaces

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ER -

Area-Selective Atomic Layer Deposition on Functionalized Graphene Prepared by Reversible Laser Oxidation

Abstract

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Cite this

Area-Selective Atomic Layer Deposition on Functionalized Graphene Prepared by Reversible Laser Oxidation

Abstract

Funding

Keywords

Access to Document

Other files and links

Fingerprint

Equipment

Raw Materials Research Infrastructure

Cite this