Three-dimensional network of hexagonal boron nitride filled with polydimethylsiloxane with high thermal conductivity and good insulating properties for thermal management applications

“…Numerous theoretical models have been developed to investigate the thermally conductive composites. , Among them, Foygel et al introduced a specialized thermal conductivity model tailored for high aspect ratio fillers, with a particular focus on the influence of ITR. This model can be expressed by the following equations: λ c − λ m = φ 0 true( V normalf − V normalc 1 − V normalc true) β R ′ = 1 φ 0 L V c β A = false( 2 D 2 / π false) ln true[ 1 − p − 1 + 1 + p − 1 1 + p − 1 − 1 − p − 1...…”

“…Moreover, researchers have employed diverse methods, including the ice-template approach, , stress-induced method, , vacuum filtration, , electrospinning, magnetic orientation, and CVD, , to construct a thermally conductive network of hBN within the polymer matrix, resulting in a significant enhancement in the TCs of composites. In our previous study, we developed a hard-template technique using poly­(methyl methacrylate) (PMMA) microspheres as sacrificial materials to fabricate isotropic flexible TCP . However, we encountered a challenge in achieving sufficient contact points between hBN layers due to the rigidity of hBN itself, which led to an increase in the ITR f–f .…”

Thermally Conductive, Electrically Insulating Epoxy Pads with Three-Dimensional Polydopamine-Modified and Silver Nanoparticle-Functionalized Hexagonal Boron Nitride Networks

“…Numerous theoretical models have been developed to investigate the thermally conductive composites. , Among them, Foygel et al introduced a specialized thermal conductivity model tailored for high aspect ratio fillers, with a particular focus on the influence of ITR. This model can be expressed by the following equations: λ c − λ m = φ 0 true( V normalf − V normalc 1 − V normalc true) β R ′ = 1 φ 0 L V c β A = false( 2 D 2 / π false) ln true[ 1 − p − 1 + 1 + p − 1 1 + p − 1 − 1 − p − 1...…”

“…Moreover, researchers have employed diverse methods, including the ice-template approach, , stress-induced method, , vacuum filtration, , electrospinning, magnetic orientation, and CVD, , to construct a thermally conductive network of hBN within the polymer matrix, resulting in a significant enhancement in the TCs of composites. In our previous study, we developed a hard-template technique using poly­(methyl methacrylate) (PMMA) microspheres as sacrificial materials to fabricate isotropic flexible TCP . However, we encountered a challenge in achieving sufficient contact points between hBN layers due to the rigidity of hBN itself, which led to an increase in the ITR f–f .…”

Thermally Conductive, Electrically Insulating Epoxy Pads with Three-Dimensional Polydopamine-Modified and Silver Nanoparticle-Functionalized Hexagonal Boron Nitride Networks

“…Hard templates are usually used to prepare structures with high resolution. 196 Soft templates are suitable for micro–nano structures that require flexibility and bendability. 197 Composite templates can realize complex micro–nanostructures with greater controllability by tuning the properties and sequences of materials in different layers.…”

Recent advances in the construction and application of stretchable PEDOT smart electronic membranes

“…), and carbon materials (carbon fiber, carbon nanotubes, graphene, etc. ). − However, achieving the desired λ often requires a large loading of fillers, which negatively impacts the manufacturability and mechanical properties of the PDMS . Although carbon materials, with a high aspect ratio, can endow PDMS composites with decent λ at low filling load, the high electrical conductivity generally limits their applicability in situations where insulation is highly addressed …”

Multipurpose Poly(dimethylsiloxane) Dielectric Films with Superb Thermal Conductivity by Incorporating Silver Nanoparticle-Decorated Boron Nitride Nanosheets