High‑k Materials with Low Dielectric Loss Based on Two Superposed Gradient Carbon Nanotube/Cyanate Ester Composites

Higher dielectric constant, lower dielectric loss, and good processing characteristics have been the goal for developing high-k materials in actual cutting-edge applications. The distribution, motion, and the rearrangement of space charges are the key factors in determining the dielectric properties...

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Published inJournal of physical chemistry. C Vol. 117; no. 30; pp. 15487 - 15495
Main Authors Wang, Binghao, Qin, Dake, Liang, Guozheng, Gu, Aijuan, Liu, Limei, Yuan, Li
Format Journal Article
LanguageEnglish
Published Columbus, OH American Chemical Society 01.08.2013
Subjects
Applied sciences
Cross-disciplinary physics: materials science; rheology
Cutting
Exact sciences and technology
Materials science
Metals. Metallurgy
Nanoscale materials and structures: fabrication and characterization
Other topics in nanoscale materials and structures
Physics
Production techniques
Dielectric loss
Polarization
Material processing
Dielectric properties
Space charge
Carbon nanotubes
Composite material
Cutting
Ester
Multiwalled nanotube
Leakage current
High k dielectric
Permittivity
Nanostructured materials
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Abstract Higher dielectric constant, lower dielectric loss, and good processing characteristics have been the goal for developing high-k materials in actual cutting-edge applications. The distribution, motion, and the rearrangement of space charges are the key factors in determining the dielectric properties of a material; however, few reports focus on this subject. Here, materials with high dielectric constant and low dielectric loss, consisting of two superposed gradient multiwall carbon nanotube (MWCNT)/cyanate ester (CE) composites, coded as [g-MWCNT/CE]2, were uniquely prepared. When the loading of MWCNTs is 0.5 wt %, either MWCNT0.5/CE or [g-MWCNT0.5/CE]2 composite shows the largest dielectric constant of its corresponding type of composites, the value is 136 or 306 (at 1 Hz); meanwhile, the dielectric loss tangent at 1 Hz of [g-MWCNT0.5/CE]2 material is 0.21, only about 2.9 × 10–5 times the value of the MWCNT0.5/CE composite. By investigating the distribution of space charges, the unique dielectric behavior of the [g-MWCNT/CE]2 materials is found to result from the reinforced space charge polarization and subdued leakage current induced by the presence of the “conductor fault” between the two superposed gradient composites. These interesting data suggest that the special structure of [g-MWCNT0.5/CE]2 materials is beneficial to fabricate high-k composites with low dielectric loss.
AbstractList Higher dielectric constant, lower dielectric loss, and good processing characteristics have been the goal for developing high-k materials in actual cutting-edge applications. The distribution, motion, and the rearrangement of space charges are the key factors in determining the dielectric properties of a material; however, few reports focus on this subject. Here, materials with high dielectric constant and low dielectric loss, consisting of two superposed gradient multiwall carbon nanotube (MWCNT)/cyanate ester (CE) composites, coded as [g-MWCNT/CE]2, were uniquely prepared. When the loading of MWCNTs is 0.5 wt %, either MWCNT0.5/CE or [g-MWCNT0.5/CE]2 composite shows the largest dielectric constant of its corresponding type of composites, the value is 136 or 306 (at 1 Hz); meanwhile, the dielectric loss tangent at 1 Hz of [g-MWCNT0.5/CE]2 material is 0.21, only about 2.9 × 10–5 times the value of the MWCNT0.5/CE composite. By investigating the distribution of space charges, the unique dielectric behavior of the [g-MWCNT/CE]2 materials is found to result from the reinforced space charge polarization and subdued leakage current induced by the presence of the “conductor fault” between the two superposed gradient composites. These interesting data suggest that the special structure of [g-MWCNT0.5/CE]2 materials is beneficial to fabricate high-k composites with low dielectric loss.
Author Yuan, Li
Wang, Binghao
Qin, Dake
Liang, Guozheng
Gu, Aijuan
Liu, Limei
AuthorAffiliation Soochow University
AuthorAffiliation_xml – name: Soochow University
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  givenname: Binghao
  surname: Wang
  fullname: Wang, Binghao
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  givenname: Dake
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  givenname: Guozheng
  surname: Liang
  fullname: Liang, Guozheng
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  givenname: Aijuan
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  givenname: Limei
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  fullname: Liu, Limei
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  surname: Yuan
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Issue 30
Keywords Dielectric loss
Polarization
Material processing
Dielectric properties
Space charge
Carbon nanotubes
Composite material
Cutting
Ester
Multiwalled nanotube
Leakage current
High k dielectric
Permittivity
Nanostructured materials
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Snippet Higher dielectric constant, lower dielectric loss, and good processing characteristics have been the goal for developing high-k materials in actual...
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SubjectTerms Applied sciences
Cross-disciplinary physics: materials science; rheology
Cutting
Exact sciences and technology
Materials science
Metals. Metallurgy
Nanoscale materials and structures: fabrication and characterization
Other topics in nanoscale materials and structures
Physics
Production techniques
Title High‑k Materials with Low Dielectric Loss Based on Two Superposed Gradient Carbon Nanotube/Cyanate Ester Composites
URI http://dx.doi.org/10.1021/jp402760r
Volume 117
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