Inelastic deformation of plasma polymerised thin films facilitated by transient dense plasma focus irradiation

Daniel S. Grant; Rajdeep S. Rawat; Kateryna Bazaka; Mohan V. Jacob

doi:10.1088/2053-1591/aa8856

Inelastic deformation of plasma polymerised thin films facilitated by transient dense plasma focus irradiation

Daniel S. Grant, Rajdeep S. Rawat, Kateryna Bazaka, Mohan V. Jacob

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

1 Citation (Scopus)

Abstract

The high degree of crosslinking present in plasma polymerised thin films, coupled with their high molecular weight, imbues these films with properties similar to those of thermosetting polymers. For instance, such films tend to be relatively hard, insoluble, and to date have not exhibited plasticity when subjected to elevated temperatures. In this paper it is demonstrated that plasma polymers can, in fact, undergo plastic deformation in response to the application of extremely short-lived thermal treatment delivered by a dense plasma focus device, as evidenced by the evolution of bubble-like structures from the thin film. This finding suggests new avenues for texturing plasma thin films, and synthesising cavities that may find utility as thermal insulators or domains for material encapsulation.

Original language	English
Article number	096407
Journal	Materials Research Express
Volume	4
Issue number	9
DOIs	https://doi.org/10.1088/2053-1591/aa8856
Publication status	Published - Sept 2017
Externally published	Yes

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title = "Inelastic deformation of plasma polymerised thin films facilitated by transient dense plasma focus irradiation",

abstract = "The high degree of crosslinking present in plasma polymerised thin films, coupled with their high molecular weight, imbues these films with properties similar to those of thermosetting polymers. For instance, such films tend to be relatively hard, insoluble, and to date have not exhibited plasticity when subjected to elevated temperatures. In this paper it is demonstrated that plasma polymers can, in fact, undergo plastic deformation in response to the application of extremely short-lived thermal treatment delivered by a dense plasma focus device, as evidenced by the evolution of bubble-like structures from the thin film. This finding suggests new avenues for texturing plasma thin films, and synthesising cavities that may find utility as thermal insulators or domains for material encapsulation.",

keywords = "Dense plasma focus, Inelastic deformation, Plasma polymer, Radiation processing, Thin films",

author = "Grant, {Daniel S.} and Rawat, {Rajdeep S.} and Kateryna Bazaka and Jacob, {Mohan V.}",

note = "Publisher Copyright: {\textcopyright} 2017 IOP Publishing Ltd.",

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doi = "10.1088/2053-1591/aa8856",

language = "English",

volume = "4",

journal = "Materials Research Express",

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AU - Grant, Daniel S.

AU - Rawat, Rajdeep S.

AU - Bazaka, Kateryna

AU - Jacob, Mohan V.

PY - 2017/9

Y1 - 2017/9

N2 - The high degree of crosslinking present in plasma polymerised thin films, coupled with their high molecular weight, imbues these films with properties similar to those of thermosetting polymers. For instance, such films tend to be relatively hard, insoluble, and to date have not exhibited plasticity when subjected to elevated temperatures. In this paper it is demonstrated that plasma polymers can, in fact, undergo plastic deformation in response to the application of extremely short-lived thermal treatment delivered by a dense plasma focus device, as evidenced by the evolution of bubble-like structures from the thin film. This finding suggests new avenues for texturing plasma thin films, and synthesising cavities that may find utility as thermal insulators or domains for material encapsulation.

AB - The high degree of crosslinking present in plasma polymerised thin films, coupled with their high molecular weight, imbues these films with properties similar to those of thermosetting polymers. For instance, such films tend to be relatively hard, insoluble, and to date have not exhibited plasticity when subjected to elevated temperatures. In this paper it is demonstrated that plasma polymers can, in fact, undergo plastic deformation in response to the application of extremely short-lived thermal treatment delivered by a dense plasma focus device, as evidenced by the evolution of bubble-like structures from the thin film. This finding suggests new avenues for texturing plasma thin films, and synthesising cavities that may find utility as thermal insulators or domains for material encapsulation.

KW - Dense plasma focus

KW - Inelastic deformation

KW - Plasma polymer

KW - Radiation processing

KW - Thin films

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DO - 10.1088/2053-1591/aa8856

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JO - Materials Research Express

JF - Materials Research Express

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ER -

Inelastic deformation of plasma polymerised thin films facilitated by transient dense plasma focus irradiation

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