Enhancement of Interfacial Thermal Conductance of Sic by Overlapped Carbon Nanotubes and Intertube Atoms

Abstract: We proposed a new way, adding intertube atoms, to enhance interfacial thermal conductance (ITC) between SiC-carbon nanotube (CNT) array structure. Non-equilibrium molecular dynamics method was used to study the ITC. The results show that the intertube atoms can significantly enhance the ITC. The dependence of ITC on both the temperature and the number of intertube atoms are shown. The mechanism is analyzed by calculating probability distributions of atomic forces and vibrational density of states. Our study ma… Show more

“…The slightly lower κ x of heavily-doped PEDOT arises from higher doping concentration and thus larger volume density of interface regions compared with lightly-doped PEDOT. Correspondingly, there is no obvious temperature dependence of κ x , which is similar to previous results about thermal interfaces. − …”

Hybrid Thermal Transport Characteristics of Doped Organic Semiconductor Poly(3,4-ethylenedioxythiophene):Tosylate

“…The slightly lower κ x of heavily-doped PEDOT arises from higher doping concentration and thus larger volume density of interface regions compared with lightly-doped PEDOT. Correspondingly, there is no obvious temperature dependence of κ x , which is similar to previous results about thermal interfaces. − …”

Hybrid Thermal Transport Characteristics of Doped Organic Semiconductor Poly(3,4-ethylenedioxythiophene):Tosylate