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In this study, we designed a ‘spark in liquid’ system. The spark discharge between two electrodes were used to generate particles by using sufficient temperature to evaporate a part of electrodes. The power supply system provides a continuous spar...
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RISS 인기검색어
https://www.riss.kr/link?id=A101616224
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2012
-
작성언어
Korean
- 주제어
-
등재정보
KCI등재후보
-
자료형태
학술저널
-
수록면
37-43(7쪽)
-
KCI 피인용횟수
0
- 제공처
- 소장기관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
In this study, we designed a ‘spark in liquid’ system. The spark discharge between two electrodes were used to generate particles by using sufficient temperature to evaporate a part of electrodes. The power supply system provides a continuous spark discharge by discharging of the capacitor to ionize the electrodes in liquid. The DC spark discharge system operates with 1-10 kV voltage. Processed copper and graphite rods were used to both electrodes with 1-3 mm diameter. There are several variables which can control the particle size and concentration such as gap distance between electrodes, applied voltage, operating liquid temperature, electrode type and liquid type. So we controlled these variables to confirm the change of particle size distribution and concentration of particles contained in liquid as wt%. ‘spark in liquid’ system is expected to apply nanoink by control of concentration with analysis of characteristics.
In this study, we designed a ‘spark in liquid’ system. The spark discharge between two electrodes were used to generate particles by using sufficient temperature to evaporate a part of electrodes. The power supply system provides a continuous spark discharge by discharging of the capacitor to ionize the electrodes in liquid. The DC spark discharge system operates with 1-10 kV voltage. Processed copper and graphite rods were used to both electrodes with 1-3 mm diameter. There are several variables which can control the particle size and concentration such as gap distance between electrodes, applied voltage, operating liquid temperature, electrode type and liquid type. So we controlled these variables to confirm the change of particle size distribution and concentration of particles contained in liquid as wt%. ‘spark in liquid’ system is expected to apply nanoink by control of concentration with analysis of characteristics.
참고문헌 (Reference)
1 Greer, J. R., "Thermal cure effects on electrical performance of nanoparticle silver inks" 55 : 6345-6349, 2007
2 Byeon, J. H., "Spark generation of monometallic and bimetallic aerosol nanoparticles" PERGAMON-ELSEVIER SCIENCE LTD 39 : 888-896, 2008
3 김학성, "Intense pulsed light sintering of copper nanoink for printed electronics" SPRINGER 97 (97): 791-798, 200912
4 Tabrizi, N. S., "Generation of nanoparticles by spark discharge" 11 (11): 315-332, 2009
5 Kim, J. T., "Generation of metal oxide aerosol particles by a pulsed spark discharge technique" 63 : 911-916, 2005
6 Harvath, H., "A low-voltage spark generator for production of carbon particles" 34 : 1581-1588, 2003
7 Byoungyoon Lee, "A low-cure-temperature copper nano ink for highly conductive printed electrodes" 한국물리학회 9 (9): 157-160, 2009
1 Greer, J. R., "Thermal cure effects on electrical performance of nanoparticle silver inks" 55 : 6345-6349, 2007
2 Byeon, J. H., "Spark generation of monometallic and bimetallic aerosol nanoparticles" PERGAMON-ELSEVIER SCIENCE LTD 39 : 888-896, 2008
3 김학성, "Intense pulsed light sintering of copper nanoink for printed electronics" SPRINGER 97 (97): 791-798, 200912
4 Tabrizi, N. S., "Generation of nanoparticles by spark discharge" 11 (11): 315-332, 2009
5 Kim, J. T., "Generation of metal oxide aerosol particles by a pulsed spark discharge technique" 63 : 911-916, 2005
6 Harvath, H., "A low-voltage spark generator for production of carbon particles" 34 : 1581-1588, 2003
7 Byoungyoon Lee, "A low-cure-temperature copper nano ink for highly conductive printed electrodes" 한국물리학회 9 (9): 157-160, 2009
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