Dynamical aspects of nanoparticle formation by wire explosion process

Prem Ranjan; D H  Nguyen; Tony Chen; Ian Cotton; Hisayuki  Suematsu; S R Chakravarthy; R Jayaganthan; R Sarathi

doi:10.1088/2632-959X/ab97ec

Dynamical aspects of nanoparticle formation by wire explosion process

Prem Ranjan, D H Nguyen, Tony Chen, Ian Cotton, Hisayuki Suematsu, S R Chakravarthy, R Jayaganthan, R Sarathi

EEE - Academic & Research

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

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Abstract

Copper nanoparticles (NPs) were produced by wire explosion process (WEP) and it was noted that the amount of energy (E) deposited on the wire and the ambient pressure play a major role on the size of particles formed. Dynamic diffusion and condensation processes of NPs formation by WEP were modelled. Calculations of critical size of embryo, activation energy and nucleation rate of the formation of NPs in WEP were made considering classical homogeneous nucleation theory. Decrease in critical size of nuclei and activation energy, increase in nucleation rate with high E (540 J) and low operating pressure (10 kPa) confirm the formation of small size NPs (26 nm). Different cooling rates due to unsymmetrical shape of the vapour cloud has been identified as the cause for generating mixed particle sizes. The qualitative analysis conducted in this work validates the obtained experimental results and can be used as a design tool for industrial apparatus to produce NPs in bulk.

Original language	English
Journal	Nano Express
Early online date	29 May 2020
DOIs	https://doi.org/10.1088/2632-959X/ab97ec
Publication status	Published - 10 Jun 2020

Keywords

Nanoparticles
Wire Explosion
Fickian diffusion
Copper
Critical size

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title = "Dynamical aspects of nanoparticle formation by wire explosion process",

abstract = "Copper nanoparticles (NPs) were produced by wire explosion process (WEP) and it was noted that the amount of energy (E) deposited on the wire and the ambient pressure play a major role on the size of particles formed. Dynamic diffusion and condensation processes of NPs formation by WEP were modelled. Calculations of critical size of embryo, activation energy and nucleation rate of the formation of NPs in WEP were made considering classical homogeneous nucleation theory. Decrease in critical size of nuclei and activation energy, increase in nucleation rate with high E (540 J) and low operating pressure (10 kPa) confirm the formation of small size NPs (26 nm). Different cooling rates due to unsymmetrical shape of the vapour cloud has been identified as the cause for generating mixed particle sizes. The qualitative analysis conducted in this work validates the obtained experimental results and can be used as a design tool for industrial apparatus to produce NPs in bulk.",

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T1 - Dynamical aspects of nanoparticle formation by wire explosion process

AU - Ranjan, Prem

AU - Nguyen, D H

AU - Chen, Tony

AU - Cotton, Ian

AU - Suematsu, Hisayuki

AU - Chakravarthy, S R

AU - Jayaganthan, R

AU - Sarathi, R

PY - 2020/6/10

Y1 - 2020/6/10

N2 - Copper nanoparticles (NPs) were produced by wire explosion process (WEP) and it was noted that the amount of energy (E) deposited on the wire and the ambient pressure play a major role on the size of particles formed. Dynamic diffusion and condensation processes of NPs formation by WEP were modelled. Calculations of critical size of embryo, activation energy and nucleation rate of the formation of NPs in WEP were made considering classical homogeneous nucleation theory. Decrease in critical size of nuclei and activation energy, increase in nucleation rate with high E (540 J) and low operating pressure (10 kPa) confirm the formation of small size NPs (26 nm). Different cooling rates due to unsymmetrical shape of the vapour cloud has been identified as the cause for generating mixed particle sizes. The qualitative analysis conducted in this work validates the obtained experimental results and can be used as a design tool for industrial apparatus to produce NPs in bulk.

AB - Copper nanoparticles (NPs) were produced by wire explosion process (WEP) and it was noted that the amount of energy (E) deposited on the wire and the ambient pressure play a major role on the size of particles formed. Dynamic diffusion and condensation processes of NPs formation by WEP were modelled. Calculations of critical size of embryo, activation energy and nucleation rate of the formation of NPs in WEP were made considering classical homogeneous nucleation theory. Decrease in critical size of nuclei and activation energy, increase in nucleation rate with high E (540 J) and low operating pressure (10 kPa) confirm the formation of small size NPs (26 nm). Different cooling rates due to unsymmetrical shape of the vapour cloud has been identified as the cause for generating mixed particle sizes. The qualitative analysis conducted in this work validates the obtained experimental results and can be used as a design tool for industrial apparatus to produce NPs in bulk.

KW - Nanoparticles

KW - Wire Explosion

KW - Fickian diffusion

KW - Copper

KW - Critical size

U2 - 10.1088/2632-959X/ab97ec

DO - 10.1088/2632-959X/ab97ec

M3 - Article

JO - Nano Express

JF - Nano Express

SN - 2632-959X

ER -

Dynamical aspects of nanoparticle formation by wire explosion process

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Keywords

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