Characteristics of molybdenum as a plasma-generating electrode

Sang Heon Lee; Nack Hwan Kim; Gon Ho Kim; Byeongjun Bae; Jun Seop Shin; Su San Park; Sung Young Yoon; Youngki Hong

doi:10.1166/sam.2016.2927

Characteristics of molybdenum as a plasma-generating electrode

Sang Heon Lee, Nack Hwan Kim, Gon Ho Kim, Byeongjun Bae, Jun Seop Shin, Su San Park, Sung Young Yoon, Youngki Hong

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

3 Citations (Scopus)

Abstract

Plasma technology is being studied and utilized in various medical fields, which requires increased ablation rate and decreased erosion rate of the metal electrode. The purpose of this experiment is to investigate the durability and the decomposition efficacy change in the catheter tips made of molybdenum metal. Metal particle size and amount in saline medium after plasma discharge were measured by electrophoretic light scattering photometry (ELS), and the tip metal surface after discharge was observed by field emission scanning electron microscopy (FESEM) and by the chemical reaction for component change. The mass defect in the tip and the decomposition rate of porcine disc by discharge time were measured by using the electric scale with a resolution of 50 μg. The surface structure change on FESEM showed that the molybdenum tip was more intact than the stainless steel tip, and the surface components included Molybdenum 96.4 wt.%, Na 0.41 wt.%, and Cl 0.23 wt.%. The average size of the particles was 300±35 nm. At high level of electric power, the erosion rate of the molybdenum tip was about 1 ug/s. The erosion rate of the molybdenum catheter was 1×10^-13 kg per pulse, and the durability of the catheter tip was similar to that of the tungsten tip. Furthermore, we could generate plasma over 300 at the high voltage level with the molybdenum catheter. This means that the molybdenum catheter can effectively remove more tissue.

Original language	English
Pages (from-to)	1844-1847
Number of pages	4
Journal	Science of Advanced Materials
Volume	8
Issue number	9
DOIs	https://doi.org/10.1166/sam.2016.2927
Publication status	Published - 2016
Externally published	Yes

Bibliographical note

Funding Information:
This research was partly supported by a grant of the Korean Health technology R&D Project through the Korea Health Industry Development Institute (KHIDI), funded by the Ministry of Health and Welfare, Republic of Korea (grant number: HI14C3477), R&D Program of 'Plasma Advanced Technology for Agriculture and Food (Plasma Farming)' through the National Fusion Research Institute of Korea (NFRI) funded by the Government funds and the Brain Korea 21 Plus Project (No. 21A20130012821).

Publisher Copyright:
© 2016 by American Scientific Publishers All rights reserved.

Keywords

Metal erosion
Metal particles
Molybdenum
Nucleus pulposus
Plasma

ASJC Scopus subject areas

General Materials Science

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10.1166/sam.2016.2927

Cite this

@article{b247e1ffa00142198bd8f6ced88f6e52,

title = "Characteristics of molybdenum as a plasma-generating electrode",

abstract = "Plasma technology is being studied and utilized in various medical fields, which requires increased ablation rate and decreased erosion rate of the metal electrode. The purpose of this experiment is to investigate the durability and the decomposition efficacy change in the catheter tips made of molybdenum metal. Metal particle size and amount in saline medium after plasma discharge were measured by electrophoretic light scattering photometry (ELS), and the tip metal surface after discharge was observed by field emission scanning electron microscopy (FESEM) and by the chemical reaction for component change. The mass defect in the tip and the decomposition rate of porcine disc by discharge time were measured by using the electric scale with a resolution of 50 μg. The surface structure change on FESEM showed that the molybdenum tip was more intact than the stainless steel tip, and the surface components included Molybdenum 96.4 wt.%, Na 0.41 wt.%, and Cl 0.23 wt.%. The average size of the particles was 300±35 nm. At high level of electric power, the erosion rate of the molybdenum tip was about 1 ug/s. The erosion rate of the molybdenum catheter was 1×10-13 kg per pulse, and the durability of the catheter tip was similar to that of the tungsten tip. Furthermore, we could generate plasma over 300 at the high voltage level with the molybdenum catheter. This means that the molybdenum catheter can effectively remove more tissue.",

keywords = "Metal erosion, Metal particles, Molybdenum, Nucleus pulposus, Plasma",

author = "Lee, {Sang Heon} and Kim, {Nack Hwan} and Kim, {Gon Ho} and Byeongjun Bae and Shin, {Jun Seop} and Park, {Su San} and Yoon, {Sung Young} and Youngki Hong",

note = "Funding Information: This research was partly supported by a grant of the Korean Health technology R&D Project through the Korea Health Industry Development Institute (KHIDI), funded by the Ministry of Health and Welfare, Republic of Korea (grant number: HI14C3477), R&D Program of 'Plasma Advanced Technology for Agriculture and Food (Plasma Farming)' through the National Fusion Research Institute of Korea (NFRI) funded by the Government funds and the Brain Korea 21 Plus Project (No. 21A20130012821). Publisher Copyright: {\textcopyright} 2016 by American Scientific Publishers All rights reserved.",

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doi = "10.1166/sam.2016.2927",

language = "English",

volume = "8",

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AU - Lee, Sang Heon

AU - Kim, Nack Hwan

AU - Kim, Gon Ho

AU - Bae, Byeongjun

AU - Shin, Jun Seop

AU - Park, Su San

AU - Yoon, Sung Young

AU - Hong, Youngki

N1 - Funding Information: This research was partly supported by a grant of the Korean Health technology R&D Project through the Korea Health Industry Development Institute (KHIDI), funded by the Ministry of Health and Welfare, Republic of Korea (grant number: HI14C3477), R&D Program of 'Plasma Advanced Technology for Agriculture and Food (Plasma Farming)' through the National Fusion Research Institute of Korea (NFRI) funded by the Government funds and the Brain Korea 21 Plus Project (No. 21A20130012821). Publisher Copyright: © 2016 by American Scientific Publishers All rights reserved.

PY - 2016

Y1 - 2016

N2 - Plasma technology is being studied and utilized in various medical fields, which requires increased ablation rate and decreased erosion rate of the metal electrode. The purpose of this experiment is to investigate the durability and the decomposition efficacy change in the catheter tips made of molybdenum metal. Metal particle size and amount in saline medium after plasma discharge were measured by electrophoretic light scattering photometry (ELS), and the tip metal surface after discharge was observed by field emission scanning electron microscopy (FESEM) and by the chemical reaction for component change. The mass defect in the tip and the decomposition rate of porcine disc by discharge time were measured by using the electric scale with a resolution of 50 μg. The surface structure change on FESEM showed that the molybdenum tip was more intact than the stainless steel tip, and the surface components included Molybdenum 96.4 wt.%, Na 0.41 wt.%, and Cl 0.23 wt.%. The average size of the particles was 300±35 nm. At high level of electric power, the erosion rate of the molybdenum tip was about 1 ug/s. The erosion rate of the molybdenum catheter was 1×10-13 kg per pulse, and the durability of the catheter tip was similar to that of the tungsten tip. Furthermore, we could generate plasma over 300 at the high voltage level with the molybdenum catheter. This means that the molybdenum catheter can effectively remove more tissue.

AB - Plasma technology is being studied and utilized in various medical fields, which requires increased ablation rate and decreased erosion rate of the metal electrode. The purpose of this experiment is to investigate the durability and the decomposition efficacy change in the catheter tips made of molybdenum metal. Metal particle size and amount in saline medium after plasma discharge were measured by electrophoretic light scattering photometry (ELS), and the tip metal surface after discharge was observed by field emission scanning electron microscopy (FESEM) and by the chemical reaction for component change. The mass defect in the tip and the decomposition rate of porcine disc by discharge time were measured by using the electric scale with a resolution of 50 μg. The surface structure change on FESEM showed that the molybdenum tip was more intact than the stainless steel tip, and the surface components included Molybdenum 96.4 wt.%, Na 0.41 wt.%, and Cl 0.23 wt.%. The average size of the particles was 300±35 nm. At high level of electric power, the erosion rate of the molybdenum tip was about 1 ug/s. The erosion rate of the molybdenum catheter was 1×10-13 kg per pulse, and the durability of the catheter tip was similar to that of the tungsten tip. Furthermore, we could generate plasma over 300 at the high voltage level with the molybdenum catheter. This means that the molybdenum catheter can effectively remove more tissue.

KW - Metal erosion

KW - Metal particles

KW - Molybdenum

KW - Nucleus pulposus

KW - Plasma

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DO - 10.1166/sam.2016.2927

M3 - Article

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SN - 1947-2935

VL - 8

SP - 1844

EP - 1847

JO - Science of Advanced Materials

JF - Science of Advanced Materials

IS - 9

ER -

Characteristics of molybdenum as a plasma-generating electrode

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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