光电探测器
材料科学
分光计
光电子学
光电流
单色
宽带
异质结
探测器
光学
非线性系统
光谱功率分布
光学滤波器
光电导性
动态范围
响应时间
谱线
暗电流
工作(物理)
作者
Zhipeng Liu,Wenli Zhang,Xin Wang,Huaxin Zhu,Jinfeng Han,Zheng Wang,Wenwen Qiao
标识
DOI:10.1021/acsami.5c25593
摘要
The pursuit of miniaturized spectrometers necessitates device architectures that are both structurally simple and high-performing. This work reports a single-pixel organic computational spectrometer (OCS) based on an organic photodetector (OPD) with a pseudoplanar heterojunction (PPHJ) active layer. Through controlled sequential deposition, a gradient donor–acceptor distribution is achieved, yielding bias-dependent spectral responses with strong nonlinear correlations (Pearson correlation coefficients from −0.07 to 1.00). The OCS achieves a high detectivity of 7.84 × 1012 Jones and a fast response time of 2.85 μs, enabling accurate reconstruction of monochromatic and broadband spectra across 300–1000 nm range with a normalized root-mean-square error (NRMSE) as low as 0.0034. Moreover, the same device structure serves as a filterless quad-channel color sensor via photocurrent readout at four predefined bias voltages, bypassing the need for spectral filters or complex algorithms. This minimalist design, which delivers high performance from a single active layer, offers significant potential for portable and integrated spectroscopic applications.
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