Nickel phosphorous amorphous film catalyst was prepared by means of electrodeposition on p-type silicon. Effects of H3PO3 content in bath and current density on phosphorous content in the film were studied. With the i...Nickel phosphorous amorphous film catalyst was prepared by means of electrodeposition on p-type silicon. Effects of H3PO3 content in bath and current density on phosphorous content in the film were studied. With the increase of H3PO3 concentration and the decrease of current density, P content was increased remarkably, X-ray dtheaction (XRD) showed that the film containning x (molar fraction)=0.109 P is amorphous.Scanning electrouic microscopy (SEM) and X-ray photoelectron spectroscopy (XPS) wereused to investigate the morphology of the film and the chemical state of Ni, P, O on thesurface.展开更多
Thin film light-emitting diodes with organic/inorganic heterostructure in which ZnO:Zn layer was used as electron transporting and hole blocking layer, PDDOPV, Poly(2,5- Didodecyloxy-1,4 Phenylenevinylene ) was used a...Thin film light-emitting diodes with organic/inorganic heterostructure in which ZnO:Zn layer was used as electron transporting and hole blocking layer, PDDOPV, Poly(2,5- Didodecyloxy-1,4 Phenylenevinylene ) was used as hole transport and emission layer have been successfully prepared. Comparing to single layer device, the luminescent efficiency of bilayer device is improved about twenty-six times, the emission spectrum’s peak wavelength shifts to short wavelength, the half width at full maximum (HWFM) widens. The improvement of luminescent efficiency is due to the insertion of ZnO:Zn layer.展开更多
文摘Nickel phosphorous amorphous film catalyst was prepared by means of electrodeposition on p-type silicon. Effects of H3PO3 content in bath and current density on phosphorous content in the film were studied. With the increase of H3PO3 concentration and the decrease of current density, P content was increased remarkably, X-ray dtheaction (XRD) showed that the film containning x (molar fraction)=0.109 P is amorphous.Scanning electrouic microscopy (SEM) and X-ray photoelectron spectroscopy (XPS) wereused to investigate the morphology of the film and the chemical state of Ni, P, O on thesurface.
文摘Thin film light-emitting diodes with organic/inorganic heterostructure in which ZnO:Zn layer was used as electron transporting and hole blocking layer, PDDOPV, Poly(2,5- Didodecyloxy-1,4 Phenylenevinylene ) was used as hole transport and emission layer have been successfully prepared. Comparing to single layer device, the luminescent efficiency of bilayer device is improved about twenty-six times, the emission spectrum’s peak wavelength shifts to short wavelength, the half width at full maximum (HWFM) widens. The improvement of luminescent efficiency is due to the insertion of ZnO:Zn layer.