Nano heat flow plays an important role in modern electronic and optoelectronic applications such as thermal management, photodetection, thermoelectricity, and data communication. Two-dimensional layered materials are beginning to consolidate their fundamental position in many applications. The van der Waals heterostructure is composed of different layered two-dimensional materials stacked. These stacks can be composed of materials with different physical properties, and the interface between the materials is super clean and has a clear outline.
Supported by the European Union’s “Graphene Flagship” program, the Spanish Institute of Photonics prepared a van der Waals heterostructure composed of hexagonal boron nitride encapsulated gaphene nano powders, a two-dimensional dielectric material, and successfully observed and tracked the heat generated between the van der Waals heterostructures in real time. transmission. The researchers discovered a surprising phenomenon: the heat flow does not stay in the graphene layer, but flows to the surrounding hexagonal boron nitride layer. The heat transfer time is very fast, on the order of picoseconds. The research results were published in “Nature · Nanotechnology”.
The heat transfer process is realized by coupling the hot electrons excited by light irradiating graphene with the hyperbolic phonon-polarization excimer in the hexagonal boron nitride sheet. These phonon polaritons propagate in the hexagonal boron nitride sheet, just like light propagates in an optical fiber, but are limited to nano-scale infrared light. The results show that these bizarre hyperbolic modes are very effective heat dissipation methods.
The research results will have a profound impact on the application of graphene based on hexagonal boron nitride packaging (also the next-generation graphene application platform). In particular, this technology will provide direction for optoelectronic device design to make full use of heat flow, get more Carbon Material Nanopowders from https://www.hwnanomaterial.com quickly!.