Constructing the core–shell structured island domain in polymer blends to achieve high dielectric constant and low loss

Yang, Jing‐hui; Zhang, Tingting; Zhang, Yong‐sheng; Zhang, Nan; Huang, Ting; Wang, Yong

doi:10.1002/pi.5937

Cited by 9 publications

(3 citation statements)

References 41 publications

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“…Phthalonitrile resins, as an excellent thermosetting resin, have great potential applications in the field of navigation, aerospace, electronics, etc. 38,51 Compared with ferroelectric materials, polymeric materials have advantages in wearable devices 52 and dielectric elastomers 53 due to their mild processing technology. Unfortunately, the low dielectric constant easily makes the polymeric materials electrically break down, which not only limits their applications in these fields, but also damages the stability of the device.…”

Section: Electronic Applications Of Phthalonitrile Resinsmentioning

confidence: 99%

An overview of high-performance phthalonitrile resins: fabrication and electronic applications

Gao

et al. 2022

J. Mater. Chem. C

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Section: Electronic Applications Of Phthalonitrile Resinsmentioning

confidence: 99%

An overview of high-performance phthalonitrile resins: fabrication and electronic applications

Gao

et al. 2022

J. Mater. Chem. C

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“…However, polymer‐based materials have low dielectric constant and low work temperature compared with traditional dielectric ceramics. [ 1–4 ] In recent years, polymer‐based composites with excellent dielectric properties have attracted considerable interest for their potential applications in the field of microelectronics, such as electrostriction for artificial muscles, [ 5 ] advanced dielectric capacitors, [ 6,7 ] and other portable flexible electronics. [ 8–10 ] However, for insulating polymers to achieving both a high dielectric constant and a low loss remain a challenge.…”

Section: Introductionmentioning

confidence: 99%

Enhanced dielectric performance of polydimethylsiloxane‐based ternary composites films via tailored hydrogen bonds between carbon nanotube and barium titanate as modified fillers

Tang

Liu

Wang

et al. 2021

Vinyl Additive Technology

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A series of BT–cCNT/PDMS and BT–aCNT/PDMS composites were developed by incorporating barium titanate (BT) nanoparticles together with carboxylic functionalized multiwalled carbon nanotubes (cCNT) and amino functionalization multiwalled carbon nanotubes (aCNT) in polydimethylsiloxane (PDMS). Benefitting from the abundant active groups, CNTs and BTs can be in situ “bridged” by hydrogen bond in all of the BT–cCNT/PDMS and BT–aCNT/PDMS composites. Here, we studied the effect of hydrogen bonds (type and amount) between BTs and CNTs at the interface and dielectric properties of the composites. The results indicated that the BT–cCNT/PDMS composite exhibited higher dielectric constant and comparable dielectric loss than the BT–aCNT/PDMS composite, especially when weightCNT < 1 wt%. Also, the dielectric properties of BT–cCNT/PDMS composite show stronger temperature dependence than BT–aCNT/PDMS composite. Finally, the tailorable performance of the polymer‐based dielectric composites can be obtained by regulating the interface with the help of hydrogen bonds.

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“…Polymer-based dielectric composites have aroused great interest in researchers due to the materials being able to store electrical energy and their wide use in capacitors, voice control equipment, artificial muscles and other applications [ 1 , 2 , 3 , 4 ]. However, the dielectric constant ( k ) of most commercialized polymers are often very low ( k < 10), which cannot meet the requirements of further miniaturization of electronic components in practical applications.…”

Section: Introductionmentioning

confidence: 99%

Improved Dielectric Properties of Thermoplastic Polyurethane Elastomer Filled with Core–Shell Structured PDA@TiC Particles

Zhou

Jin

et al. 2020

Materials

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Insulating interlayer between nanoparticles and polymer matrix is crucial for suppressing the dielectric loss of polymer composites. In this study, titanium carbide (TiC) particles were surface modified by polydopamine (PDA), and the obtained PDA@TiC powders were used to reinforce thermoplastic polyurethane (TPU). The results indicate that the PDA@TiC were homogenously dispersed in the matrix compared with the pristine TiC, and that the PDA@TiC/TPU composites show improved dielectric and mechanical properties, i.e., much lower dissipation factors and obviously enhanced dielectric breakdown strength, as well as higher tensile strength and elongation at break as compared to the raw TiC/TPU. The nanoscale PDA interlayer contributes to the dielectric and mechanical enhancements because it not only serves as an insulating shell that prevents TiC particles from direct contacting and suppresses the loss and leakage current to very low levels, but also enhances the interfacial interactions thereby leading to improved mechanical strength and toughness. The prepared flexible PDA@TiC/TPU with high permittivity but low loss will find potential applications in electronic and electrical applications.

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Constructing the core–shell structured island domain in polymer blends to achieve high dielectric constant and low loss

Cited by 9 publications

References 41 publications

An overview of high-performance phthalonitrile resins: fabrication and electronic applications

An overview of high-performance phthalonitrile resins: fabrication and electronic applications

Enhanced dielectric performance of polydimethylsiloxane‐based ternary composites films via tailored hydrogen bonds between carbon nanotube and barium titanate as modified fillers

Improved Dielectric Properties of Thermoplastic Polyurethane Elastomer Filled with Core–Shell Structured PDA@TiC Particles

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