并五苯
单重态裂变
光电流
激子
光激发
光电探测器
量子效率
光电导性
材料科学
有机半导体
光电子学
单重态
多激子产生
比克西顿
裂变
分子物理学
激发
作者
J. Lee,Priya Jadhav,Marc A. Baldo
摘要
We employ an exciton fission process that converts one singlet exciton into two triplet excitons to increase the quantum efficiency of an organic multilayer photodetector beyond 100%. The photodetector incorporates ultrathin alternating donor-acceptor layers of pentacene and C60, respectively. By comparing the quantum efficiency after separate pentacene and C60 photoexcitation we find that singlet exciton fission in pentacene enhances the quantum efficiency by (45±7)%. In quantitative agreement with this result, we also observe that the photocurrent generated from pentacene excitons is decreased by (2.7±0.2)% under an applied magnetic field of H=0.4 T, while the C60 photocurrent is relatively unchanged.
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