The development of microwave plasma device for nanoparticles' preparation

S. S. Liao; Q. Wang; B. Y. Zhang; G. X. Zhang; Q. Zhang

doi:10.1109/PPC.2013.6627687

The development of microwave plasma device for nanoparticles' preparation

S. S. Liao, Q. Wang, B. Y. Zhang, G. X. Zhang, Q. Zhang

Tsinghua University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Microwave plasma is considered to be more suitable for magnetic nanoparticles' preparation with advantages of moderate power density, high activity and non-electrode. This paper presents a microwave plasma generator that can excite and maintain microwave plasma much more easily than the previous similar structure [1] by changing the inlet of working gas. The emission spectra of microwave plasma in different experimental conditions and positions were measured to analyze the electron excited temperature by characteristic spectrum, and get the rough distribution of plasma temperature. Centered on the microwave plasma generator, a preparation system was established to manufacture Iron nano-particles. And the manufactured Iron nano-particles had been verified to possess magnetism, distribute homogeneously with the average size about 30nm.

Original language	English
Title of host publication	2013 19th IEEE Pulsed Power Conference, PPC 2013
DOIs	https://doi.org/10.1109/PPC.2013.6627687
Publication status	Published - 2013
Externally published	Yes
Event	2013 19th IEEE Pulsed Power Conference, PPC 2013 - San Francisco, CA, United States Duration: 16 Jun 2013 → 21 Jun 2013

Publication series

Name	Digest of Technical Papers-IEEE International Pulsed Power Conference

Conference

Conference	2013 19th IEEE Pulsed Power Conference, PPC 2013
Country/Territory	United States
City	San Francisco, CA
Period	16/06/13 → 21/06/13

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10.1109/PPC.2013.6627687

Cite this

@inproceedings{354bda41174c49e5af5c7b96efd2d881,

title = "The development of microwave plasma device for nanoparticles' preparation",

abstract = "Microwave plasma is considered to be more suitable for magnetic nanoparticles' preparation with advantages of moderate power density, high activity and non-electrode. This paper presents a microwave plasma generator that can excite and maintain microwave plasma much more easily than the previous similar structure [1] by changing the inlet of working gas. The emission spectra of microwave plasma in different experimental conditions and positions were measured to analyze the electron excited temperature by characteristic spectrum, and get the rough distribution of plasma temperature. Centered on the microwave plasma generator, a preparation system was established to manufacture Iron nano-particles. And the manufactured Iron nano-particles had been verified to possess magnetism, distribute homogeneously with the average size about 30nm.",

author = "Liao, {S. S.} and Q. Wang and Zhang, {B. Y.} and Zhang, {G. X.} and Q. Zhang",

year = "2013",

doi = "10.1109/PPC.2013.6627687",

language = "English",

isbn = "9781467351676",

series = "Digest of Technical Papers-IEEE International Pulsed Power Conference",

booktitle = "2013 19th IEEE Pulsed Power Conference, PPC 2013",

note = "2013 19th IEEE Pulsed Power Conference, PPC 2013 ; Conference date: 16-06-2013 Through 21-06-2013",

}

Liao, SS, Wang, Q, Zhang, BY, Zhang, GX & Zhang, Q 2013, The development of microwave plasma device for nanoparticles' preparation. in 2013 19th IEEE Pulsed Power Conference, PPC 2013., 6627687, Digest of Technical Papers-IEEE International Pulsed Power Conference, 2013 19th IEEE Pulsed Power Conference, PPC 2013, San Francisco, CA, United States, 16/06/13. https://doi.org/10.1109/PPC.2013.6627687

TY - GEN

T1 - The development of microwave plasma device for nanoparticles' preparation

AU - Liao, S. S.

AU - Wang, Q.

AU - Zhang, B. Y.

AU - Zhang, G. X.

AU - Zhang, Q.

PY - 2013

Y1 - 2013

N2 - Microwave plasma is considered to be more suitable for magnetic nanoparticles' preparation with advantages of moderate power density, high activity and non-electrode. This paper presents a microwave plasma generator that can excite and maintain microwave plasma much more easily than the previous similar structure [1] by changing the inlet of working gas. The emission spectra of microwave plasma in different experimental conditions and positions were measured to analyze the electron excited temperature by characteristic spectrum, and get the rough distribution of plasma temperature. Centered on the microwave plasma generator, a preparation system was established to manufacture Iron nano-particles. And the manufactured Iron nano-particles had been verified to possess magnetism, distribute homogeneously with the average size about 30nm.

AB - Microwave plasma is considered to be more suitable for magnetic nanoparticles' preparation with advantages of moderate power density, high activity and non-electrode. This paper presents a microwave plasma generator that can excite and maintain microwave plasma much more easily than the previous similar structure [1] by changing the inlet of working gas. The emission spectra of microwave plasma in different experimental conditions and positions were measured to analyze the electron excited temperature by characteristic spectrum, and get the rough distribution of plasma temperature. Centered on the microwave plasma generator, a preparation system was established to manufacture Iron nano-particles. And the manufactured Iron nano-particles had been verified to possess magnetism, distribute homogeneously with the average size about 30nm.

UR - http://www.scopus.com/inward/record.url?scp=84888628683&partnerID=8YFLogxK

U2 - 10.1109/PPC.2013.6627687

DO - 10.1109/PPC.2013.6627687

M3 - Conference contribution

AN - SCOPUS:84888628683

SN - 9781467351676

T3 - Digest of Technical Papers-IEEE International Pulsed Power Conference

BT - 2013 19th IEEE Pulsed Power Conference, PPC 2013

T2 - 2013 19th IEEE Pulsed Power Conference, PPC 2013

Y2 - 16 June 2013 through 21 June 2013

ER -

The development of microwave plasma device for nanoparticles' preparation

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