Photocurrent deviation from linearity in an organic photodetector due to limited hole transport layer conductivity

@article{Euvrard2020PhotocurrentDF,
  title={Photocurrent deviation from linearity in an organic photodetector due to limited hole transport layer conductivity},
  author={Julie Euvrard and Am{\'e}lie Revaux and Antoine Kahn and Dominique Vuillaume},
  journal={Organic Electronics},
  year={2020},
  volume={76},
  pages={105450}
}
View via Publisher
sciencedirect.com
5 Citations

5 Citations

Highly photosensitive near infrared photodetector based on polypyrrole nanoparticle incorporated with CdS quantum dots

High performance photodetectors using porous silicon-TiO2 heterostructure

In this study, a feasible approach for UV–vis photodetection using hybrid heterojunction by integrating porous silicon and TiO2 thin film is demonstrated. The photodetector demonstrates excellent

Narrowband organic photodetectors - towards miniaturized, spectroscopic sensing.

In this review, recent progress of such narrowband OPDs is systematically summarized covering all aspects from narrow-photo-absorbing materials to device architecture engineering and several exciting research perspectives, which will stimulate further research on organic-semiconductor-based photodetectors are pointed out.

A Hybrid Optoelectronic Sensor Platform with an Integrated Solution‐Processed Organic Photodiode

Hybrid systems, unifying printed electronics with silicon‐based technology, can be seen as a driving force for future sensor development. Especially interesting are sensing elements based on printed

Synthesis Characterization of Sno2 Nanofibers (Nfs) and Application of High-Performing Photodetectors Based on Sno2 Nfs/N-Si Heterostructure

41 References

Analysis of the degradation mechanism of ITO-free organic solar cells under UV radiation

Intensity and Wavelength Dependence of Bimolecular Recombination in P3HT:PCBM Solar Cells: A White-Light Biased External Quantum Efficiency Study

Bimolecular recombination is often a major photogenerated charge carrier loss mechanism in organic photovoltaic (OPV) devices, resulting in lower fill factor (FF) compared to inorganic devices. The

Electrical aspects of operation of polymer-fullerene solar cells

P-doped organic semiconductor: potential replacement for PEDOT:PSS in organic photodetectors

In this work we present an alternative to the use of PEDOT:PSS as hole transport and electron blocking layer in organic photodetectors processed by solution. As PEDOT:PSS is known to be sensitive to

Influence of cathode oxidation via the hole extraction layer in polymer:fullerene solar cells

Low‐Noise Multispectral Photodetectors Made from All Solution‐Processed Inorganic Semiconductors

Infrared, visible, and multispectral photodetectors are important components for sensing, security and electronics applications. Current fabrication of these devices is based on inorganic materials

Influence of crystallizable solvent on the morphology and performance of P3HT:PCBM bulk-heterojunction solar cells

Monomolecular and Bimolecular Recombination of Electron–Hole Pairs at the Interface of a Bilayer Organic Solar Cell

While it has been argued that field‐dependent geminate pair recombination (GR) is important, this process is often disregarded when analyzing the recombination kinetics in bulk heterojunction organic

Degradation patterns in water and oxygen of an inverted polymer solar cell.

It was found that the reactions taking place at the interface between the active layer and the PEDOT:PSS were the major cause of device failure in the case of these inverted devices, which are compatible with full roll-to-roll (R2R) coating and industrial manufacture.

Recombination in polymer-fullerene bulk heterojunction solar cells

Recombination of photogenerated charge carriers in polymer bulk heterojunction (BHJ) solar cells reduces the short circuit current (Jsc ) and the fill factor (FF). Identifying the mechanism of