Twisted graphene possesses unique electronic properties and applications, which have been studied extensively. Recently, the phonon properties of twisted graphene have received a great deal of attention. To the best o...Twisted graphene possesses unique electronic properties and applications, which have been studied extensively. Recently, the phonon properties of twisted graphene have received a great deal of attention. To the best of our knowledge,thermal transports in twisted graphene have been investigated little to date. Here, we study perpendicular and parallel transports in twisted few-layer graphene(T-FLG). It is found that perpendicular and parallel transports are both sensitive to the rotation angle θ between layers. When θ increases from 0° to 60°, perpendicular thermal conductivity κ(||) first decreases and then increases, and the transition angle is θ = 30°. For the parallel transport, the relation between thermal conductivity κand θ is complicated, because intra-layer thermal transport is more sensitive to the edge of layer than their stacking forms. However, the dependence of interlayer scattering on θ is similar to that of κ⊥. In addition, the effect of layer number on the thermal transport is discussed. Our results may provide references for designing the devices of thermal insulation and thermal management based on graphene.展开更多
The water vapor transport around the Tibetan Plateau(TP) and its effect on the rainfall in the Yangtze River valley(YRV) in summer are investigated by decomposing the moisture transport into rotational and diverge...The water vapor transport around the Tibetan Plateau(TP) and its effect on the rainfall in the Yangtze River valley(YRV) in summer are investigated by decomposing the moisture transport into rotational and divergent components.Based on the ERA-Interim and PREC/L(Precipitation Reconstruction over Land) data from 1985 to 2014,the vertically integrated features of the two components are examined.The results show that the divergent part dominates the western TP while the rotational part dominates the rest of the TP,implying that moisture may be mostly locally gathered in the western TP but could be advected to/from elsewhere over the rest of the TP.The divergent and rotational moisture fluxes exhibit great temporal variability along the southern periphery of the TP,showing sensitivity of water vapor to the steep topography there.Correlation analysis reveals that it is over the southeastern corner of the TP and to its south that a significant correlation between rotational zonal moisture transport and summer rainfall in the YRV appears,suggesting that the southeastern corner of the TP may serve as a moisture transport bridge between the South Asian(Indian) monsoon and the East Asian monsoon.Further composite analysis indicates that anomalous eastward(westward) zonal water vapor transport from the South Asian monsoon via the southeastern corner of the TP favors more(less) precipitation in the YRV in summer.展开更多
基金Project supported by the National Natural Science Foundation of China(Grant Nos.51376005 and 11474243)
文摘Twisted graphene possesses unique electronic properties and applications, which have been studied extensively. Recently, the phonon properties of twisted graphene have received a great deal of attention. To the best of our knowledge,thermal transports in twisted graphene have been investigated little to date. Here, we study perpendicular and parallel transports in twisted few-layer graphene(T-FLG). It is found that perpendicular and parallel transports are both sensitive to the rotation angle θ between layers. When θ increases from 0° to 60°, perpendicular thermal conductivity κ(||) first decreases and then increases, and the transition angle is θ = 30°. For the parallel transport, the relation between thermal conductivity κand θ is complicated, because intra-layer thermal transport is more sensitive to the edge of layer than their stacking forms. However, the dependence of interlayer scattering on θ is similar to that of κ⊥. In addition, the effect of layer number on the thermal transport is discussed. Our results may provide references for designing the devices of thermal insulation and thermal management based on graphene.
基金Supported by the National(Key)Basic Research and Development(973)Program of China(2012CB417201)China Meteorological Administration Special Public Welfare Research Fund(GYHY201406001)National Natural Science Foundation of China(41130960 and 91437215)
文摘The water vapor transport around the Tibetan Plateau(TP) and its effect on the rainfall in the Yangtze River valley(YRV) in summer are investigated by decomposing the moisture transport into rotational and divergent components.Based on the ERA-Interim and PREC/L(Precipitation Reconstruction over Land) data from 1985 to 2014,the vertically integrated features of the two components are examined.The results show that the divergent part dominates the western TP while the rotational part dominates the rest of the TP,implying that moisture may be mostly locally gathered in the western TP but could be advected to/from elsewhere over the rest of the TP.The divergent and rotational moisture fluxes exhibit great temporal variability along the southern periphery of the TP,showing sensitivity of water vapor to the steep topography there.Correlation analysis reveals that it is over the southeastern corner of the TP and to its south that a significant correlation between rotational zonal moisture transport and summer rainfall in the YRV appears,suggesting that the southeastern corner of the TP may serve as a moisture transport bridge between the South Asian(Indian) monsoon and the East Asian monsoon.Further composite analysis indicates that anomalous eastward(westward) zonal water vapor transport from the South Asian monsoon via the southeastern corner of the TP favors more(less) precipitation in the YRV in summer.
