“…Xu et al prepared the hybrid ETL consisting of Cs 2 CO 3 and PF6NPSBr in PTNT812:PC 71 BM-based OSC, obtaining a PCE of 10.78% . In addition, Ma et al utilized the p-PPtNT/Cs 2 CO 3 compound layer at the ITO/active-layer interface which allowed for a PCE of 4.15% . Regarding the metal oxides/carbonates interlayer, Nho et al developed IOSC with Li 2 CO 3 -modified-ZnO as ETL, with a PCE is as high as 10.08% .…”
Section: Inorganic Materialsmentioning
confidence: 99%
“…26 In addition, Ma et al utilized the p-PPtNT/Cs 2 CO 3 compound layer at the ITO/ active-layer interface which allowed for a PCE of 4.15%. 27 Regarding the metal oxides/carbonates interlayer, Nho et al developed IOSC with Li 2 CO 3 -modified-ZnO as ETL, with a PCE is as high as 10.08%. 28 Van-Huong Tran et al deposited Rb 2 CO 3 on SnO 2 to act as ETL (Figure 3a) and obtained a PCE of 7.35%.…”
Interface engineering is very important to the high performance
of organic optoelectronic devices that are commonly composed of multilayer
thin solid films. Interfacial materials are particularly crucial for
interface engineering, and a variety of materials have been employed
at the interface to accomplish various different functions. This Review
summarizes various materials for the interfaces and some of the latest
progress in organic solar cells (OSCs) and organic photodetectors
(OPDs).
“…Xu et al prepared the hybrid ETL consisting of Cs 2 CO 3 and PF6NPSBr in PTNT812:PC 71 BM-based OSC, obtaining a PCE of 10.78% . In addition, Ma et al utilized the p-PPtNT/Cs 2 CO 3 compound layer at the ITO/active-layer interface which allowed for a PCE of 4.15% . Regarding the metal oxides/carbonates interlayer, Nho et al developed IOSC with Li 2 CO 3 -modified-ZnO as ETL, with a PCE is as high as 10.08% .…”
Section: Inorganic Materialsmentioning
confidence: 99%
“…26 In addition, Ma et al utilized the p-PPtNT/Cs 2 CO 3 compound layer at the ITO/ active-layer interface which allowed for a PCE of 4.15%. 27 Regarding the metal oxides/carbonates interlayer, Nho et al developed IOSC with Li 2 CO 3 -modified-ZnO as ETL, with a PCE is as high as 10.08%. 28 Van-Huong Tran et al deposited Rb 2 CO 3 on SnO 2 to act as ETL (Figure 3a) and obtained a PCE of 7.35%.…”
Interface engineering is very important to the high performance
of organic optoelectronic devices that are commonly composed of multilayer
thin solid films. Interfacial materials are particularly crucial for
interface engineering, and a variety of materials have been employed
at the interface to accomplish various different functions. This Review
summarizes various materials for the interfaces and some of the latest
progress in organic solar cells (OSCs) and organic photodetectors
(OPDs).
High-mobility, solution-processed CdS films were investigated as electron transport layers in inverted, organic solar cells and found to yield excellent performance in conjunction with organic interfacial dipole layers.
Non-conjugated polyelectrolytes are empolyed as interfacial layers at the electrodes of solar cells and transistor devices to improve the power conversion efficiency (PCE) and device performance.
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