Formation of large area closely packed carbon onions film by plasma-based ion implantation

Naohiro Matsumoto,Hiroshi Kinoshita,Junho Choi,Takahisa Kato

doi:10.1038/s41598-020-67323-9

Naohiro Matsumoto, Hiroshi Kinoshita + Show 2 more

Open Access

https://doi.org/10.1038/s41598-020-67323-9

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Journal: Scientific Reports	Publication Date: Jun 22, 2020
Citations: 7	License type: open-access

Affiliation: University of Hyogo, The University of Tokyo

Abstract

A substantial quantity of carbon onions in a durable film state is indispensable for its applications. In this study, large area fabrication of closely packed homogeneous carbon onion nanoparticle film using plasma-based ion implantation was demonstrated. Ag film deposited on a Si substrate was used as the implantation target for the hydrocarbon ions accelerated at 20 kV. Nanoparticles with the mean diameter of 7.5 nm were formed at the grain boundary of the Ag film. Carbon onions with the mean diameter of 17.4 nm were synthesized and arranged to a closely packed nanoparticle film with the thickness of around 200 nm by gradual thermal vaporization of the Ag. The closely packed configuration was achieved due to the isolated growth of carbon onion nanoparticle and high uniformity of the diameter. This process can be used in principle large area formation compered to typical ion implantation technique of carbon onion nanoparticle film, which can be applicable for the practical use in mechanical and electrochemical applications.

Highlights

A substantial quantity of carbon onions in a durable film state is indispensable for its applications
The production of carbon onions in a film state of large area and high-particle density is considered to be a key technology to realize the practical applications of carbon onions in wide-industrial fields such as batteries, solid lubricants, protective coatings, solar cells, and data storage d evices[2,3,4,5,6,7,8]
The formation process of carbon onions film was analyzed by using transmission electron microscopy (TEM) and X-ray photoelectron spectroscopy (XPS)

Summary

Introduction

A substantial quantity of carbon onions in a durable film state is indispensable for its applications. The closely packed configuration was achieved due to the isolated growth of carbon onion nanoparticle and high uniformity of the diameter This process can be used in principle large area formation compered to typical ion implantation technique of carbon onion nanoparticle film, which can be applicable for the practical use in mechanical and electrochemical applications. The stability of the density and the translational energy of the ions in the plasma in PBII is less than that in conventional implantation process, the implantation area in principle is not limited because the acceleration electric field covers for the entire substrate s urface[21] This implantation mechanism has an advantage on the formation of large-area and three-dimensional carbon onions film on various component surface, which can contribute not Scientific Reports | (2020) 10:10037. Tribological and mechanical properties of the carbon onions film were evaluated

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