Progress in Surface Engineering Using Slow Highly Charged Ions

Ayman S. El-Said

doi:10.1007/s13369-024-09236-7

Progress in Surface Engineering Using Slow Highly Charged Ions

Ayman S. El-Said^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

Abstract

The irradiation with highly energetic (MeV–GeV) heavy ions can produce modifications to the properties of different materials. Among the observed effects, fabrication of nanostructures in different materials surfaces was demonstrated. Recently, slow (eV–keV) highly charged ions (HCIs) were successfully utilized for the fabrication of similar surface nanostructures in various solids. However, HCI exhibits unique features by altering only the upper most surface layers without modifying the deeper layers, which cannot be avoided for MeV–GeV heavy ions. Based on both the material properties and ion parameters (charge state, kinetic energy, potential energy, etc.), surface structures of various geometries (hillocks, caldera-like, pits) and sizes were obtained. This paper reviews the research progress of surface engineering by HCI and the available theoretical models for understanding the creation mechanisms of the formed nanostructures.

Original language	English
Article number	044073
Pages (from-to)	2947-2955
Number of pages	9
Journal	Arabian Journal for Science and Engineering
Volume	50
Issue number	5
DOIs	https://doi.org/10.1007/s13369-024-09236-7
State	Published - Mar 2025

Bibliographical note

Publisher Copyright:
© King Fahd University of Petroleum & Minerals 2024.

Keywords

Ion-surface interaction
Nanostructures
Surface modifications

ASJC Scopus subject areas

General

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10.1007/s13369-024-09236-7

Cite this

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title = "Progress in Surface Engineering Using Slow Highly Charged Ions",

abstract = "The irradiation with highly energetic (MeV–GeV) heavy ions can produce modifications to the properties of different materials. Among the observed effects, fabrication of nanostructures in different materials surfaces was demonstrated. Recently, slow (eV–keV) highly charged ions (HCIs) were successfully utilized for the fabrication of similar surface nanostructures in various solids. However, HCI exhibits unique features by altering only the upper most surface layers without modifying the deeper layers, which cannot be avoided for MeV–GeV heavy ions. Based on both the material properties and ion parameters (charge state, kinetic energy, potential energy, etc.), surface structures of various geometries (hillocks, caldera-like, pits) and sizes were obtained. This paper reviews the research progress of surface engineering by HCI and the available theoretical models for understanding the creation mechanisms of the formed nanostructures.",

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PY - 2025/3

Y1 - 2025/3

N2 - The irradiation with highly energetic (MeV–GeV) heavy ions can produce modifications to the properties of different materials. Among the observed effects, fabrication of nanostructures in different materials surfaces was demonstrated. Recently, slow (eV–keV) highly charged ions (HCIs) were successfully utilized for the fabrication of similar surface nanostructures in various solids. However, HCI exhibits unique features by altering only the upper most surface layers without modifying the deeper layers, which cannot be avoided for MeV–GeV heavy ions. Based on both the material properties and ion parameters (charge state, kinetic energy, potential energy, etc.), surface structures of various geometries (hillocks, caldera-like, pits) and sizes were obtained. This paper reviews the research progress of surface engineering by HCI and the available theoretical models for understanding the creation mechanisms of the formed nanostructures.

AB - The irradiation with highly energetic (MeV–GeV) heavy ions can produce modifications to the properties of different materials. Among the observed effects, fabrication of nanostructures in different materials surfaces was demonstrated. Recently, slow (eV–keV) highly charged ions (HCIs) were successfully utilized for the fabrication of similar surface nanostructures in various solids. However, HCI exhibits unique features by altering only the upper most surface layers without modifying the deeper layers, which cannot be avoided for MeV–GeV heavy ions. Based on both the material properties and ion parameters (charge state, kinetic energy, potential energy, etc.), surface structures of various geometries (hillocks, caldera-like, pits) and sizes were obtained. This paper reviews the research progress of surface engineering by HCI and the available theoretical models for understanding the creation mechanisms of the formed nanostructures.

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KW - Surface modifications

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Progress in Surface Engineering Using Slow Highly Charged Ions

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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