2 article(s) from Rauwel, Erwan
Figure 1: (a) Transmittance from 300–800 nm of ITO (150 nm), two-layer (2L) and four-layer (4L) graphene and ...
Figure 2: Cross-sectional scanning electron microscopy (SEM) image of the layers of the OLED. The various lay...
Figure 3: Optical images of light emission of (a) blue and (b) UV LED under different current-spreading layer...
Figure 4: (a) EL spectra of LED having 2 and 5 nm Au–CNT system with an injection current of 100 mA measured ...
Figure 5: Comparison of turn-on voltage and maximum luminance of OLED with AgNP, AuNP, graphene, MWNT, and SW...
Figure 6: (a) OLED device structure with graphene oxide–AuNP inserted between ITO anode and NPB HTL. (b) The ...
Figure 7: (a) Luminance as a function of current density and (b) EL spectrum for a MWNT concentration of 8 wt...
Figure 8: Transmission electron microscopy images for (a) pristine ZnO and (b) 2–3% Ag-doped ZnO. Figure 8a and Figure 8b were ...
Figure 9: (a) Room temperature PL spectra of ZnMgO, Pt/ZnMgO, Ag/ZnMgO, and PtNP. A six-fold and a two-fold e...
Figure 1: (a) HAADF-STEM image of the MWCNT:HfO2, (b) higher magnification image of (a), (c) HAADF-HRSTEM ima...
Figure 2: (a) Absorption spectrum of MWCNTs decorated with cubic HfO2 nanoparticles obtained from the transmi...
Figure 3: (a) Room temperature photoluminescence spectra of MWCNTs decorated with cubic HfO2 nanoparticles (f...
Figure 4: (a) HAADF-STEM image of the area of interest where EELS was performed, (b) C K-edge core loss EELS ...
Figure 5: (a) I–V characteristic of a nanohybrid material in the dark (full line) and under illumination (dot...