Abstract
Phase transition is a natural phenomenon happened around our daily life, represented by the process from ice to water. While melting and solidifying at a certain temperature, a high heat of fusion is accompanied, classified as the latent heat. Phase change material (PCM) has been widely applied to store and release large amount of energy attributed to the distinctive thermal behavior. Here, with the help of nanoporous materials, we introduce a general strategy to achieve the binary eicosane/PEG4000 stuffed reduced graphene oxide aerogels, which has two ends with different melting points. It's successfully demonstrated this binary PCM composites exhibits thermal rectification characteristic. Partial phase transitions within porous networks instantaneously result in one end of the thermal conductivity saltation at a critical temperature, and therefore switch on or off the thermal rectification with the coefficient up to 1.23. This value can be further raised by adjusting the loading content of PCM. The uniqueness of this device lies in its performance as a normal thermal conductor at low temperature, only exhibiting rectification phenomenon when temperature is higher than a critical value. The stated technology has broad applications for thermal energy control in macroscopic scale such as energy-efficiency building or nanodevice thermal management.
Highlights
Phase transition is a natural phenomenon happened around our daily life, represented by the process from ice to water
We introduce a general strategy to manufacture a new thermal rectifier built from binary solid-liquid Phase change material (PCM), which was stuffed in the two ends of the same nanoporous scaffold
The deformable reduced graphene oxide (rGO) aerogel scaffold with the size of 25.0 3 6.0 3 0.8 mm[3] was prepared by hydrothermal method and supercritical dry subsequently according to the references 33, 34 (Supplemental Information)
Summary
Phase transition is a natural phenomenon happened around our daily life, represented by the process from ice to water. Partial phase transitions within porous networks instantaneously result in one end of the thermal conductivity saltation at a critical temperature, and switch on or off the thermal rectification with the coefficient up to 1.23. This value can be further raised by adjusting the loading content of PCM. This work has a significant contribution to control heat current in electronic devices On the whole, these achievements have raised the exciting prospect that the realization of phononics devices is technologically feasible, and open the possibility for smart thermal energy management in the future. In addition to as a thermal rectifier, this composite can be applied in thermal memory as well[32]
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