Preparations and Thermal Properties of PDMS-AlN-Al2O3 Composites through the Incorporation of Poly(Catechol-Amine)-Modified Boron Nitride Nanotubes

Pornea, Arni Gesselle; Dinh, Duy Khoe; Hanif, Zahid; Yanar, Numan; Choi, Ki-In; Kwak, Min Seok; Kim, Jaewoo

doi:10.3390/nano14100847

Nanomaterials

2024

DOI: 10.3390/nano14100847

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Preparations and Thermal Properties of PDMS-AlN-Al2O3 Composites through the Incorporation of Poly(Catechol-Amine)-Modified Boron Nitride Nanotubes

Arni Gesselle Pornea,

Duy Khoe Dinh,

Zahid Hanif

et al.

Abstract: As one of the emerging nanomaterials, boron nitride nanotubes (BNNTs) provide promising opportunities for diverse applications due to their unique properties, such as high thermal conductivity, immense inertness, and high-temperature durability, while the instability of BNNTs due to their high surface induces agglomerates susceptible to the loss of their advantages. Therefore, the proper functionalization of BNNTs is crucial to highlight their fundamental characteristics. Herein, a simplistic low-cost approach… Show more

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Understanding the dielectric properties of silicone rubber‐BN nanocomposites under DC voltage

Krupanandam,

Dhivakar J,

Kornhuber

et al. 2024

Polymer Engineering & Sci

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The present study explores the dielectric and structural properties of silicone rubber composites with low‐weight percentages of boron nitride (BN) fillers aimed at insulation applications. The incorporation of BN fillers into the silicone rubber matrix significantly enhances the glass transition temperature (Tg), melting temperature (Tm), and crystallization temperature (Tc). Notably, the dielectric constant increases while the loss factor remains minimal with a low concentration of BN fillers with silicone rubber matrix. J–V characteristics from space charge limited current (SCLC) measurements were employed to evaluate trap density. The addition of 3 wt% BN filler notably improves the crossover voltage and trap density in the silicone rubber matrix. A strong correlation has been observed between trap density values derived from SCLC measurements and surface potential decay experiments. Furthermore, the SCLC measurements at different temperatures exhibit an Arrhenius behavior, providing insights into the charge transport and trapping mechanisms. Overall, the experiment results indicate that the inclusion of 3 wt % of BN filler has significant improvement in dielectric as well as charge trap characteristics.Highlights BN filler impacts permittivity and tan (δ) based on concentration levels. Differential scanning calorimetry shows crystallinity changes with increased BN filler in silicone rubber. Surface potential relates to J–V characteristics, following SCLC mechanism. Arrhenius relation to temperature‐based SCLC shows thermally activated conduction. Trap density trends align in SCLC and surface potential decay methods.

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Understanding the dielectric properties of silicone rubber‐BN nanocomposites under DC voltage

Krupanandam,

Dhivakar J,

Kornhuber

et al. 2024

Polymer Engineering & Sci

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show abstract

Boosting cement hydration with boron nitride nanotubes

Bhojaraju,

Ouellet-Plamondon

2025

Cement and Concrete Composites

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Thermal Conductivity Measurement System for Functional and Structural Products

Morozov,

Gubin,

Vakhrushin

et al. 2024

Processes

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An automated system for measuring the thermal conductivity of functional and structural materials was developed. The main building blocks of the setup are the following: heating unit and cooling unit creating a heat flux gradient in the test sample; thermal resistances for temperature registration and control; and thermal pads for better contact between parts of the setup and the sample. The effect of the thermal conductivity of thermal pads and thermal resistances on the distribution of thermal fields in the developed setup was studied by computer modelling. A control software for the measuring setup was developed based on the hardware implementation of the steady-state Fourier’s law-based method for the determination of thermal conductivity. The stopping criterion for the setup control software is the equality of heat fluxes in the heating and cooling units, as well as the stability of the thermal conductivity coefficient readings. The testing and calibration of the device were carried out using a sample of pure aluminum (99.999 wt.% Al). It was found that the experimental value of the thermal conductivity coefficient of the aluminum sample at room temperature (T = 22 °C) is <λ> = 243 ± 3 W/m·K. This value of the thermal conductivity coefficient is consistent with the literature data and experimental values obtained by the laser flash method, which ranges within λ = 210–260 W/m·K.

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Preparations and Thermal Properties of PDMS-AlN-Al2O3 Composites through the Incorporation of Poly(Catechol-Amine)-Modified Boron Nitride Nanotubes

Cited by 3 publications

References 44 publications

Understanding the dielectric properties of silicone rubber‐BN nanocomposites under DC voltage

Understanding the dielectric properties of silicone rubber‐BN nanocomposites under DC voltage

Boosting cement hydration with boron nitride nanotubes

Thermal Conductivity Measurement System for Functional and Structural Products

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