功能材料与器件学报
功能材料與器件學報
공능재료여기건학보
JOURNAL OF FUNCTIONAL MATERIALS AND DEVICES
2001年
3期
323-325
,共3页
陈建明%张建成%沈悦%刘秀红%杨林宏
陳建明%張建成%瀋悅%劉秀紅%楊林宏
진건명%장건성%침열%류수홍%양림굉
C60%高聚物%光电导%复合膜
C60%高聚物%光電導%複閤膜
C60%고취물%광전도%복합막
在ITO导电玻璃上制备了聚乙烯基咔唑(PVK)\C60复合膜与分散红I(PDRO)\C60复合膜。
在250W的红外灯照射下,发现PDRO\C60复合膜的光电导性能明显优于PVK\C60复合膜,并对
该现象作了初步解释。
在ITO導電玻璃上製備瞭聚乙烯基咔唑(PVK)\C60複閤膜與分散紅I(PDRO)\C60複閤膜。
在250W的紅外燈照射下,髮現PDRO\C60複閤膜的光電導性能明顯優于PVK\C60複閤膜,併對
該現象作瞭初步解釋。
재ITO도전파리상제비료취을희기잡서(PVK)\C60복합막여분산홍I(PDRO)\C60복합막。
재250W적홍외등조사하,발현PDRO\C60복합막적광전도성능명현우우PVK\C60복합막,병대
해현상작료초보해석。
Composite films of C60 and polymers, including Polyvincarbazole (PVK) and Poly-disperse-
red-one (PDRO), were grown on the ITO (Indium-Tin-Oxide) glass. The photoconductivity was
measured by irradiating the composite films with a 250 W infrared lamp. From the experimental results,
it is found that the photoconductivity of PDRO\C60 composite films is much higher than that of PVK\C60
with the double-layers construction. And the phenomenon of the photoconductivity change is primarily
explained.