| 摘要 |
<p>The hybrid or organic solar cell (1) useful for portable electronic use, in the automobile area for current production for various electric consumers, and in semi-transparent solar cells in the building-, green house- or automobile vitrification in clock design object, consists of a semiconductor nanoparticle (20) surrounded by a photoactive tensid material in a part of the photoactive layer (10). The tensid material has p- and n conducting material. The coverage density of the nanoparticle is >= 50% to = 100%. The nano particles are imbedded in a photoactive matrix. The hybrid or organic solar cell (1) useful for portable electronic use, in the automobile area for current production for various electric consumers, and in semi-transparent solar cells in the building-, green house- or automobile vitrification in clock design object, consists of a semiconductor nanoparticle (20) surrounded by a photoactive tensid material in a part of the photo active layer (10). The tensid material has p- and n conducting material. The coverage density of the nano particle is >= 50% to = 100%. The nanoparticles are imbedded in a photoactive matrix. The volume ratio of semiconductor nanoparticles and the tensid material surrounding to the photoactive layer is >= 0.35 to = 0.6. The tensid material has a p-conducting material and the mobility within the tensid material is >= 0.001 cm 2>/Vs to = 10 cm 2>/Vs, and has n-conducting material and the mobility within the tensid material is >= 0.00001 cm 2>/Vs to = 10 cm 2>/Vs. The tensid material has a material with a solubility of >= 10 g/l to = 400 g/l and a solvent with transition energy value of >= 30 to = 42. The mixing ratio of the p and n conducting material is 0.2:1 to 4:1. The ratio of the molar part of the p and n conducting material is inversely proportional to the ratio of the absorption of the p and n conducting component of the total solar cell.</p> |
