Nano‐Interconnected 1D/2D Boron Nitride Hybrid Networks: Unlocking Superior Thermal Conductivity in Electrically Insulating Thermal Interface Nanocomposites Based on Hybrid Thermal Percolation Model DOI Creative Commons

Seung Yeon Jang,

Ji‐un Jang,

Gyun Young Yoo

и другие.

Small Methods, Год журнала: 2025, Номер unknown

Опубликована: Май 8, 2025

Abstract Due to its high thermal and low electrical conductivities, boron nitride (BN) has emerged as an optimal filler for interface materials (TIMs) that prevent condensation of nanostructures without causing shutdown due electron tunneling. The polymer composite based on the BN hybrid strategy can be considered option electrically insulating heat‐dissipating TIM. However, there is a paucity systematic experiments theoretical approaches investigating content ratio fillers, which are key factors in synergistically improving conductivity (TC). In this study, percolation model developed by modifying Foygel investigate synergistic improvement systematically measured TC. effectively determines composition resultant performance enhancement. Furthermore, impact surface chemistry comprehensively analyzed conjunction with network structure. highest isotropic TC (10.93 W m −1 ·K) achieved optimizing formation nano‐interconnections between 1D nanotube 2D hexagonal (h‐BN), representing significant 1582% 118% over pure epoxy containing optimized h‐BN network, respectively.

Язык: Английский

Synthetic shale gas produced water pre-treatment via ultrafiltration membranes enhanced with polydopamine-coated hydroxylated 2D boron nitride nanosheets DOI
Ismail W. Almanassra, Alaa Abushawish,

Lubna Jaber

и другие.

Desalination, Год журнала: 2025, Номер unknown, С. 118812 - 118812

Опубликована: Март 1, 2025

Язык: Английский

Процитировано

0
Fabrication of Hydroxylated Boron Nitride Printing Pastes and Their Application in Low-Temperature Thermal Transfer Printing on Polyester Substrates DOI

Shuaijie Hou,

Runshan Chu,

Guangtao Chang

и другие.

Surfaces and Interfaces, Год журнала: 2025, Номер unknown, С. 106484 - 106484

Опубликована: Апрель 1, 2025

Язык: Английский

Процитировано

0
Nano‐Interconnected 1D/2D Boron Nitride Hybrid Networks: Unlocking Superior Thermal Conductivity in Electrically Insulating Thermal Interface Nanocomposites Based on Hybrid Thermal Percolation Model DOI Creative Commons

Seung Yeon Jang,

Ji‐un Jang,

Gyun Young Yoo

и другие.

Small Methods, Год журнала: 2025, Номер unknown

Опубликована: Май 8, 2025

Abstract Due to its high thermal and low electrical conductivities, boron nitride (BN) has emerged as an optimal filler for interface materials (TIMs) that prevent condensation of nanostructures without causing shutdown due electron tunneling. The polymer composite based on the BN hybrid strategy can be considered option electrically insulating heat‐dissipating TIM. However, there is a paucity systematic experiments theoretical approaches investigating content ratio fillers, which are key factors in synergistically improving conductivity (TC). In this study, percolation model developed by modifying Foygel investigate synergistic improvement systematically measured TC. effectively determines composition resultant performance enhancement. Furthermore, impact surface chemistry comprehensively analyzed conjunction with network structure. highest isotropic TC (10.93 W m −1 ·K) achieved optimizing formation nano‐interconnections between 1D nanotube 2D hexagonal (h‐BN), representing significant 1582% 118% over pure epoxy containing optimized h‐BN network, respectively.

Язык: Английский

Процитировано

0