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Low thermal contact resistance boron nitride nanosheets composites enabled by interfacial arc-like phonon bridge.

Ke ZhanYucong ChenZhiyuan XiongYulun ZhangSiyuan DingFangzheng ZhenZhenshi LiuQiang WeiMinsu LiuBo SunHui-Ming ChengLing Qiu
Published in: Nature communications (2024)
Two-dimensional materials with ultrahigh in-plane thermal conductivity are ideal for heat spreader applications but cause significant thermal contact resistance in complex interfaces, limiting their use as thermal interface materials. In this study, we present an interfacial phonon bridge strategy to reduce the thermal contact resistance of boron nitride nanosheets-based composites. By using a low-molecular-weight polymer, we are able to manipulate the alignment of boron nitride nanosheets through sequential stacking and cutting, ultimately achieving flexible thin films with a layer of arc-like structure superimposed on perpendicularly aligned ones. Our results suggest that arc-like structure can act as a phonon bridge to lower the contact resistance by 70% through reducing phonon back-reflection and enhancing phonon coupling efficiency at the boundary. The resulting composites exhibit ultralow thermal contact resistance of 0.059 in 2 KW -1 , demonstrating effective cooling of fast-charging batteries at a thickness 2-5 times thinner than commercial products.
Keyphrases
  • reduced graphene oxide
  • visible light
  • quantum dots
  • gold nanoparticles
  • molecular dynamics simulations
  • ionic liquid
  • optical coherence tomography
  • heat stress
  • room temperature