摘要Dielectric properties of SiC/Ni nanocomposites prepared by a simple and facile electroless plating approach at X band are investigated. Compared to the original SiC nanoparticles (SiCP), the real part of the permittivity, ε', and the dielectric loss tangent tan δe of SiC/Ni nanocomposites are clearly enhanced by about 31% and 33%, respectively. The effective equations for complex permittivity of SiC/Ni nanocomposites are proposed. We also calculate ε' and tan δe of SiC/Ni nanocomposites and the calculated results are well consistent with the measured data.
Abstract:Dielectric properties of SiC/Ni nanocomposites prepared by a simple and facile electroless plating approach at X band are investigated. Compared to the original SiC nanoparticles (SiCP), the real part of the permittivity, ε', and the dielectric loss tangent tan δe of SiC/Ni nanocomposites are clearly enhanced by about 31% and 33%, respectively. The effective equations for complex permittivity of SiC/Ni nanocomposites are proposed. We also calculate ε' and tan δe of SiC/Ni nanocomposites and the calculated results are well consistent with the measured data.
[1] Kondo Y and Takayanagi K 2000 Science 289606 [2] Mao C et al. \rm %, Solis D J, Reiss B D, Kottmann S T, Sweeney R Y, Hayhurst A,%Georgiou G, Iverson B and Belcher A M2004 Science 303 213 [3] Xia Y N et al. \rm %, Yang P D, Sun Y G, Wu Y Y, Mayers B, Gates B, Yin Y D, Kim%F and Yan H Q2003 Adv. Mater. 15 353 [4] Wang W Z et al. \rm %, Zeng B Q, Yang J, Poudel B, Huang J Y, Naughton M J and%Ren Z F2006 Adv. Mater. 18 3275 [5] Guo L et al. \rm %, Ji Y L, Xu H B, Simon P and Wu Z Y2002 J. Am. Chem. Soc. 124 14864 [6] Fang X S et al. \rm %, Ye C H, Xie T, Wang Z Y, Zhao J W and Zhang L D2006 Appl. Phys. Lett. 88 013101 [7] Wang J F et al. \rm %, Gudiksen M S, Duan X F, Cui Y and Lieber C M2001 Science 293 1455 [8] Cao M S, Zhou W, Shi X L and Chen Y J 2007 Appl. Phys. Lett. 91 021912 [9] Watts P C P, Hsu W-K, Barnes A and Chambers B 2003 Adv.Mater. 15 600 [10] Dang Z M et al. \rm %, Wang L, Yin Y, Zhang Q and Lei Q Q2007 Adv. Mater. 19 852 [11] Wu J H and Kong L B 2004 Appl. Phys. Lett. 84 4956 [12] Che R C, Peng L M, Duan X F, Chen Q and Liang X L 2004 Adv.Mater. 16 401 [13] Che R C et al. \rm %, Zhi C Y, Liang C Y and Zhou X G2006 Appl. Phys. Lett. 88 033105 [14] Cao M S et al. \rm %, Shi X L, Fang X Y, Hou Z L, Jin H B and Chen Y J2007 Appl. Phys. Lett. 91 203110 [15] Chen Y J, Cao M S, Wang T H and Wan Q 2004 Appl. Phys. Lett. 84 3367 [16] Shi X L, Yuan J, Zhou W, Rong J L and Cao M S 2007 Chin.Phys. Lett. 24 2994 [17] Zhou Y, Shi X L, Yuan J, Fang X Y and Cao M S 2007 Chin.Phys. Lett. 24 3264 [18] Zhang D H, Liu Z Q, Han S, Li C, Lei B, Stewart M P, Tour J M andZhou C W 2004 Nano Lett. 4 2151 [19] Zhang R, Gao L, Wang H L and Guo J K 2004 Appl. Phys. Lett. 85 2047 [20] Luo F, Jiao H, Zhu D M and Zhou W C 2005 Mater. Lett. 59 105 [21] Zhao D L, Zhao H S and Zhou W C 2001 Physica E 9 679 [22] Zhang B, Li J B, Sun J J, Zhang S X, Zhai H Z and Du Z W 2002 J. Europ. Ceram. Soc. 22 93 [23] Zhang H T, Zhang J S and Zhang H Y 2007 Composites: Part A 38 602 [24] Zou G Z, Cao M S, Lin H B, Jin H B, Kang Y Q and Chen Y J 2006 Powder Tech. 168 84 [25] Zou G Z, Cao M S, Zhang L, Xu H and Wang Z P 2006 J. Inorg.Mater. 21 797 [26] Luo F, Zhu D M, Su X L and Zhou W C 2007 Mat. Sci. Eng. A 458 7 [27] Zou G Z, Cao M S, Zhang L, Li J G, Xu H and Chen Y J 2006 Surf. Coat. Tech. 201 108
2008, Vol. 25 
