Defects Vibrations Engineering for Enhancing Interfacial Thermal Transport

Autor: Zhou, Yijie, Ciarla, Robert, Boonkird, Artittaya, Nguyen, Thanh, Zhou, Jiawei, Jiang, Zhang, Zuo, Xiaobing, Ranasinghe, Jeewan, Hu, Weiguo, Scott, Brendan, Huang, Shengxi, Li, Mingda, Xu, Yanfei
Rok vydání: 2023
Předmět:
Druh dokumentu: Working Paper
Popis: To push upper boundaries of effective thermal conductivity in polymer composites, a fundamental understanding of thermal transport mechanisms is crucial. Although there is intensive simulation research, systematic experimental investigation on thermal transport in polymer composites is limited. To better understand thermal transport processes, we design polymer composites with perfect fillers (graphite) and defective fillers (graphite oxide); we choose polar polyvinyl alcohol (PVA) as a matrix model; and we identify how thermal transport occurs across heterogeneous interfaces. Measured thermal conductivities of in PVA/defective filler composites is higher than those of PVA/perfect filler composites, while measured thermal conductivities in defective fillers are lower than those of perfect fillers. An effective quantum mechanical model is developed, showing that the vibrational state of the defective level plays a critical role in enhancing the thermal conductivity with increased defect concentration. Our experimental and model results have suggested that defects in polymer composites may enhance thermal transport in polymer composites by promoting vibrational resonant couplings.
Comment: Enclosed: (i) Main Manuscript, including 5 main figures. (ii) Supplementary Information, including 16 Supplementary Figures and one self-contained theoretical section
Databáze: arXiv