Nickel nanoparticle decorated silicon carbide as a thermal filler in thermal conductive aramid nanofiber-based composite films for heat dissipation applications

Abstract: A novel Ni nanoparticle-decorated SiC composite was prepared as thermal filler; the synergistic effect improved the thermal conductivity, thermal stability, and puncture resistance of the ANF-based composite films.

“…25a ). 65 The γ-Ag 2 Te nanoparticles (NPs) (47) were synthesized, and their thermoelectric properties were studied within a thin film configuration deposited onto a flexible plastic substrate. The thermoelectric properties demonstrate typical p-type behavior, with the Seebeck coefficient of the γ-Ag 2 Te NP thin film measuring 1330 μV K −1 , markedly higher than that of α- or β-Ag 2 Te NP thin films.…”

Recent trends and future perspectives of thermoelectric materials and their applications

“…25a ). 65 The γ-Ag 2 Te nanoparticles (NPs) (47) were synthesized, and their thermoelectric properties were studied within a thin film configuration deposited onto a flexible plastic substrate. The thermoelectric properties demonstrate typical p-type behavior, with the Seebeck coefficient of the γ-Ag 2 Te NP thin film measuring 1330 μV K −1 , markedly higher than that of α- or β-Ag 2 Te NP thin films.…”

Recent trends and future perspectives of thermoelectric materials and their applications

“…[ 2 ] In recent years, various approaches have been explored to tackle these critical challenges, including the development of new polymers, [ 3–5 ] surface coating, [ 6–8 ] and filling modification. [ 9–11 ] Among these strategies, surface coating has garnered extensive attention due to its straightforward processes and the potential for industrial scalability. Ceramic materials, such as aluminum oxide [ 12,13 ] and boehmite, [ 6,14 ] are widely used as separator coating materials for batteries now.…”

Tailoring the Function of Battery Separators via the Design of MOF Coatings

Highly thermally conductive composite films by the rational assembly of aramid nanofibers with low-dimensional nanofillers