Effect of phonon scattering by substitutional and structural defects on thermal conductivity of 2D graphene

Abstract: The ability to tailor the thermal conductivity of graphene by introducing crystalline defects has attracted considerable research attention. In this study, nonequilibrium molecular dynamics calculation is used to investigate the effect of crystalline defects on the thermal conductivity of 2D graphene. The defects considered include substitutional nitrogen and silicon, pure structural single vacancy and Stone-Wales defects, and structurally different pyridinic nitrogen. In particular, this study focuses on the … Show more

“…The I D / I G values of GO, RGO and CGA2 are in a high range, indicating that more defects exist on the graphene sheets without the high-temperature annealing treatment, which would cause serious phonon scattering at the defect regions and result in heat loss. 59 On the contrast, HCGA2 exhibits an extremely low I D / I G value, which is the reflection of its high quality of graphene sheets and implies the greatly enhanced heat conduction of the HCGA2 skeleton.…”

Constructing anisotropic conical graphene aerogels with concentric annular structures for highly thermally conductive phase change composites towards efficient solar–thermal–electric energy conversion

“…The I D / I G values of GO, RGO and CGA2 are in a high range, indicating that more defects exist on the graphene sheets without the high-temperature annealing treatment, which would cause serious phonon scattering at the defect regions and result in heat loss. 59 On the contrast, HCGA2 exhibits an extremely low I D / I G value, which is the reflection of its high quality of graphene sheets and implies the greatly enhanced heat conduction of the HCGA2 skeleton.…”

Constructing anisotropic conical graphene aerogels with concentric annular structures for highly thermally conductive phase change composites towards efficient solar–thermal–electric energy conversion

“…As the thermal conductivity of graphene is dominated by phonons (lattice vibrations) it could be manipulated by the introduction of zigzag edge-disorder in graphene nanoribbons 223,226,228 or periodic holes 229 and lattice defects. 225,231 High degrees of functionality is offered by GO, a material that can be easily reduced to rGO by reducing oxygen presence during growth, resulting to high performing TE devices with tuneable conductivity type, band gap, and thermal conductivity. 75,76,232 Besides, hybrid approaches such as TE matrix/graphene composites could effectively achieve optimized TE performances due to various mechanisms.…”

Up-scalable emerging energy conversion technologies enabled by 2D materials: from miniature power harvesters towards grid-connected energy systems

“…These results confirm that the thermal treatment significantly improves the graphitization extent of the thermally conductive skeleton in terms of the removal of functional groups and the repair of lattice defects, resulting in extremely few phonon scattering sites that can cause heat loss during heat transferring in the skeleton. [29] Clearly, G-CGA4 is qualified to enhance the thermal conduction of PCCs efficiently. aerogel and the PEG during their compounding process.…”

Bioinspired Intelligent Solar‐Responsive Thermally Conductive Pyramidal Phase Change Composites with Radially Oriented Layered Structures toward Efficient Solar–Thermal–Electric Energy Conversion