-
采用高压放电的方式对材料进行击穿, 可以方便地制造纳米颗粒.搭建了高压击穿实验装置, 对铜丝进行高压击穿实验;分别采用透射电子显微镜(TEM)、扫描电子显微镜( SEM )和元素能谱(EDS)、X射线衍射( XRD) 测试, 对铜丝击穿丝状物进行了形貌和成份分析.研究了铜丝高压击穿后的物相特性.研究结果发现, 在高压作用下铜丝被充分电离, 产生丝状分布, 其构成为纳米颗粒的凝结;纳米颗粒的直径分布主要集中在30—60 nm之间; 颗粒产物由铜元素和氧元素组成; 它们以单晶Cu, Cu2O和CuO组成混合物;粒径大小、 产物成分与铜丝长度、直径及电压等因素相关.Copper nanoparticles are produced by high-voltage electrical explosion of copper wires. The high-voltage breakdown experimental setup for copper is built. The morphology and composition of the breakdown material are tested by the transmission electron microscopy (TEM) and scanning electron microscopy (SEM), and X-ray diffractometry (XRD) and energy dispersive spectroscopy(EDS) methods, respectively. Based on the morphology, size distribution, elemental spectrum (EDS), and XRD analysis of the breakdown material, the phase characteristics of high-voltage breakdown copper wire are studied. The results show that wire is fully ionized under high pressure, forming a filamentous distribution which is composed of condensation of nanoparticles. The diameters of copper nanoparticles are between 30 nm and 60 nm. The nanoparticles product is composed of Cu and O elements. The product is a mixture of metallic copper, cupric oxide and cuprous oxide. The particle size and its product composition are controlled by varying length and diameter of the copper wire, discharge voltage, etc.
[1] Yang P, Liao N B, Li C, Shang S H 2009 International Journal of Nonlinear Sciences & Numerical Simulation 10 483
[2] Klas M, Matejcik S, Radjenović B, Radmilovi -Radjienović M 2011 Phys. Scr. 83 45503
[3] Li X J, Wang Z L, Yan H H, Wang X H, Zhang Y J 2010 Chinese Journal of High Pressure Physics 24 368 (in Chinese) [李晓杰, 王占磊, 闫鸿浩, 王小红, 张越举 2010 高压 24 368]
[4] Kim W, Park J S, Suh C Y, Ahn J G, Lee J C 2008 Journal of Alloys and Compounds 465 4
[5] Xiang J, Song F Z, Shen X Q, Chu Y Q 2010 Acta Phys. Sin. 59 4794 (in Chinese) [向军, 宋福展, 沈湘黔, 褚艳秋 2010 59 4794]
[6] Fan Z L, Zheng F, SiTu J C 2011 The Chinese Journal of Nonferrous Metals 20 545 (in Chinese) [樊志良, 郑峰, 司徒健超 2011 中国有色金属学报 20 545]
[7] Makhlouf S A, S, A. Kassem M, M. A Abdel R 2009 J. Mater. Sci. 44 3438
[8] Li T, Chen Z P, Su Y l, Su L, Zhang J C 2009 J. Mater. Sci. 44 6149
[9] Bac L H, Ryu H J, Kim B K, Kim J S, Kim J C 2011 J. Nanosci. Nanotechnol. 11 6433
[10] Bagazeev A V, Kotov Y A, Medvedev A I, Azarkevich E I, Demina T M, Murzakaev A M, Timoshenkova O R 2010 Chemistry and Materials Science 5 656
[11] Wu Y, Sun N C, Feng G Y, Yin S M, Liao H, Zhou C M 2009 Laser Journal 30 17 (in Chinese) [吴颖, 孙年春, 冯国英, 尹升茂, 廖海, 周传明 2009 激光杂志 30 17]
[12] Murali R, Yang Y X, Brenner K, Beck T, Meindl D J 2009 Appl. Phys. Lett. 94 243114
[13] Zhu Y C, Luo G X, Fang X, Chen Y 2011 Explosion and Shock Waves 31 664 (in Chinese) [朱翼超, 罗根新, 方向, 陈宇 2011 爆炸与冲击 31 664]
[14] Yung G S, Kim B J, Lee N Y, Kim B M, Yeom S J, Kwak N J, Joo Y C 2012 Microelectronic Engineering 89 58
[15] Jiang J H, Wang G Y, Yang Y 2008 Acta Phys. Sin. 57 1123 (in Chinese) [蒋吉昊, 王桂吉, 杨宇 2008 57 1123]
[16] Mao Z G 2009 Ph. D. Dissertation (Beijing: Tsinghua University) (in Chinese) [毛志国 2009 博士学位论文 (北京: 清华大学)]
-
[1] Yang P, Liao N B, Li C, Shang S H 2009 International Journal of Nonlinear Sciences & Numerical Simulation 10 483
[2] Klas M, Matejcik S, Radjenović B, Radmilovi -Radjienović M 2011 Phys. Scr. 83 45503
[3] Li X J, Wang Z L, Yan H H, Wang X H, Zhang Y J 2010 Chinese Journal of High Pressure Physics 24 368 (in Chinese) [李晓杰, 王占磊, 闫鸿浩, 王小红, 张越举 2010 高压 24 368]
[4] Kim W, Park J S, Suh C Y, Ahn J G, Lee J C 2008 Journal of Alloys and Compounds 465 4
[5] Xiang J, Song F Z, Shen X Q, Chu Y Q 2010 Acta Phys. Sin. 59 4794 (in Chinese) [向军, 宋福展, 沈湘黔, 褚艳秋 2010 59 4794]
[6] Fan Z L, Zheng F, SiTu J C 2011 The Chinese Journal of Nonferrous Metals 20 545 (in Chinese) [樊志良, 郑峰, 司徒健超 2011 中国有色金属学报 20 545]
[7] Makhlouf S A, S, A. Kassem M, M. A Abdel R 2009 J. Mater. Sci. 44 3438
[8] Li T, Chen Z P, Su Y l, Su L, Zhang J C 2009 J. Mater. Sci. 44 6149
[9] Bac L H, Ryu H J, Kim B K, Kim J S, Kim J C 2011 J. Nanosci. Nanotechnol. 11 6433
[10] Bagazeev A V, Kotov Y A, Medvedev A I, Azarkevich E I, Demina T M, Murzakaev A M, Timoshenkova O R 2010 Chemistry and Materials Science 5 656
[11] Wu Y, Sun N C, Feng G Y, Yin S M, Liao H, Zhou C M 2009 Laser Journal 30 17 (in Chinese) [吴颖, 孙年春, 冯国英, 尹升茂, 廖海, 周传明 2009 激光杂志 30 17]
[12] Murali R, Yang Y X, Brenner K, Beck T, Meindl D J 2009 Appl. Phys. Lett. 94 243114
[13] Zhu Y C, Luo G X, Fang X, Chen Y 2011 Explosion and Shock Waves 31 664 (in Chinese) [朱翼超, 罗根新, 方向, 陈宇 2011 爆炸与冲击 31 664]
[14] Yung G S, Kim B J, Lee N Y, Kim B M, Yeom S J, Kwak N J, Joo Y C 2012 Microelectronic Engineering 89 58
[15] Jiang J H, Wang G Y, Yang Y 2008 Acta Phys. Sin. 57 1123 (in Chinese) [蒋吉昊, 王桂吉, 杨宇 2008 57 1123]
[16] Mao Z G 2009 Ph. D. Dissertation (Beijing: Tsinghua University) (in Chinese) [毛志国 2009 博士学位论文 (北京: 清华大学)]
计量
- 文章访问数: 9028
- PDF下载量: 423
- 被引次数: 0