Z. D. Zhang scite author profile

Z. D. Zhang

2Publications

49Citation Statements Received

32Citation Statements Given

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121

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Shandong University

Publications

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Dual percolation behaviors of electrical and thermal conductivity in metal-ceramic composites

Sun

Zhang

Qian

et al. 2016

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The thermal and electrical properties including the permittivity spectra in radio frequency region were investigated for copper/yttrium iron garnet (Cu/YIG) composites. Interestingly, the percolation behaviors in electrical and thermal conductivity were obtained due to the formation of copper particles' networks. Beyond the electrical percolation threshold, negative permittivity was observed and plasmon frequency was reduced by several orders of magnitude. With the increase in copper content, the thermal conductivity was gradually increased; meanwhile, the phonon scattering effect and thermal resistance get enhanced, so the rate of increase in thermal conductivity gradually slows down. Hopefully, Cu/YIG composites with tunable electrical and thermal properties have great potentials for electromagnetic interference shielding and electromagnetic wave attenuation.

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The tunable negative permittivity and negative permeability of percolative Fe/Al2O3 composites in radio frequency range

Sun

Fan

Zhang

et al. 2015

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The electromagnetic properties including ac conductivity, permittivity, and permeability of percolative Fe/Al2O3 composites, which were prepared by in-situ synthesis process, are investigated in the radio frequency range. There is an obvious percolation transition with the increase of iron contents. When iron content is beyond but near the percolation threshold, the negative permittivity and permeability are simultaneously obtained from 631 MHz to 1 GHz in sample FA30. Further increasing iron content, the Fano-like resonances are observed, and the resonance frequency where the permittivity changes from negative to positive shifts to lower frequency. In addition, the frequency region of negative permittivity and negative permeability are not overlapped any more. Hopefully, the percolative Fe/Al2O3 composites with tunable negative permittivity and negative permeability can be used as electromagnetic wave absorber.

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Z. D. Zhang

Dual percolation behaviors of electrical and thermal conductivity in metal-ceramic composites

The tunable negative permittivity and negative permeability of percolative Fe/Al2O3 composites in radio frequency range

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