Boosted Thermal Storage Performance of LiOH·H2O by Carbon Nanotubes Isolated Multilayered Graphene Oxide Frames

Abstract: Cellulose-originated three-dimensional graphene oxide CNT-modified LiOH·H2O (3D-GO-CNTs-LiOH·H2O) was synthesized by the hydrothermal method. LiOH·H2O nanoparticles (5–50 nm) were homogeneously dispersed inside the 3D-GO-CNTs frames. The composite showed enhanced heat storage density, excellent thermal conductivity, and greatly improved hydration rate due to both the hydrophilic reaction interface of 3D-GO-CNTs frames and reduced size of LiOH·H2O nanoparticles. LiOH·H2O content ratio of 23% (3D-GO-CNTs-LiOH·H2… Show more

“…Model Structure Construction. In this paper, a graphenegrating composite micro-nanostructure sensing model is proposed, and the geometric model is established by using the time-domain finite difference analysis software FDTD solutions [16][17][18][19][20], as shown in Figure 1. e Au grating with period P and depth T1 is placed on the metal Ag film with thickness T2.…”

Study of Fano Resonance Effects in Graphene-Grating Composite Structures

“…Model Structure Construction. In this paper, a graphenegrating composite micro-nanostructure sensing model is proposed, and the geometric model is established by using the time-domain finite difference analysis software FDTD solutions [16][17][18][19][20], as shown in Figure 1. e Au grating with period P and depth T1 is placed on the metal Ag film with thickness T2.…”

Study of Fano Resonance Effects in Graphene-Grating Composite Structures