High-efficiency antimony-based thin-film solar cells

Hydrothermal deposition of antimony selenosulfide thin films

For heterojunction thin film solar cells, the quality of absorber material as well as the interface synergistically determine the final device efficiency 10,11,12. In general, the

Efficient planar antimony sulfide thin film photovoltaics with

The demand for low cost, high-efficiency solar cells are always the driving force for thin film photovoltaics. The metal chalcogenide semiconductor absorbers which can meet

Antimony Chalcogenides Based Thin-Film Solar Cell

It was observed that the substrate structure of the Sb2Se3 thin film solar cell which was constructed by annealing at 400 °C had the best performance with an efficiency of

Boosting VOC of antimony chalcogenide solar cells:

Antimony chalcogenides, including Sb 2 S 3, Sb 2 Se 3, and Sb 2 (S,Se) 3, have been developed as attractive non-toxic and earth-abundant solar absorber candidates among the thin-film photovoltaic devices.Presently, a record

Performance improvement of Sb2Se3 thin-film solar cells

Antimony selenide (Sb2Se3) is a promising photovoltaic thin-film absorber material that has been widely studied in recent years. In Sb2Se3 thin-film solar cells, cadmium

Defect control for high efficiency antimony selenosulfide solar cells

Surprisingly, high efficiency of 9.39% Sb 2 (S,Se) 3 solar cells has been obtained with the addition of monoatomic Al 2 O 3 layer based on the adjustment crystal orientation,

8.2%-Efficiency hydrothermal Sb2S3 thin film solar cells by two

Lin J, Mahmood A, Chen G, et al. Crystallographic orientation control and defect passivation for high-efficient antimony selenide thin-film solar cells. Mater Today Phys, 2022, 27: 100772

Sb2S3 Thin-Film Solar Cells Fabricated from an Antimony Ethyl

The rapidly expanding demand for photovoltaics (PVs) requires stable, quick, and easy to manufacture solar cells based on socioeconomically and ecologically viable earth-abundant

High-efficiency Sb2Se3 thin-film solar cells based on Cd(S,O)

Thin-film solar cells based on antimony chalcogenide Sb 2 Se 3 have attracted significant interest owing to their environmentally friendly composition, low-cost fabrication

Sb2S3 Thin-Film Solar Cells Fabricated from an Antimony Ethyl

Presently, a record certified power conversion efficiency of 10.5% has been demonstrated for antimony chalcogenide solar cells, which is significantly lower than that of Cu2(In, Ga)Se2

Defect control for high efficiency antimony selenosulfide solar cells

The earth-abundant constituent elements present in antimony selenosulfide (Sb 2 (S,Se) 3), its high absorption coefficient of greater than 10 5 cm −1, band gap tunability

8.2%-Efficiency hydrothermal Sb2S3 thin film solar cells by two

Antimony sulfide (Sb2S3) solar cells fabricated via hydrothermal deposition have attracted widespread attention. The annealing crystallization process plays a crucial role in achieving

Vapor transport deposition of antimony selenide thin film solar cells

We improve the crystallinity of antimony selenide films and then successfully produce superstrate cadmium sulfide/antimony selenide solar cells with a certified power

Optimizing Crystal Orientation and Defect Mitigation in Antimony

Antimony selenide (Sb2Se3) has sparked significant interest in high-efficiency photovoltaic applications due to its advantageous material and optoelectronic properties. In

Strategy of stacking double absorbers to gain high

Silver antimony sulfide (AgSbS2) is used as an absorption layer in thin film solar cells due to its suitable bandgap and economic considerations. Efforts have been made to improve the photovoltaic performance of devices,

Hydrothermal deposition of antimony selenosulfide thin films

We show that hydrothermal synthesis affords good morphology and reduced defects in antimony selenosulfide films, enabling solar cells with an efficiency of 10%.

Solution-processed antimony chalcogenides based thin film solar cells

Recent developments in solution-processed antimony sulfoselenide based thin-film solar cells. Antimony sulfoselenide takes advantage of high bandgap antimony sulfide and

Antimony Chalcogenides Based Thin-Film Solar Cell

Thin-film solar cell technology is now one of the major focuses of research mainly due to CIGS and CdTe solar cells which have efficiency more than 20%. The main limitation is

Perspective of environmentally friendly antimony selenide-based solar cell

Suppressing buried interface nonradiative recombination losses toward high-efficiency antimony triselenide solar cells," Adv. Mater. 36, 2308522 Review of recent

Strategy of stacking double absorbers to gain high efficiency in

Silver antimony sulfide (AgSbS2) is used as an absorption layer in thin film solar cells due to its suitable bandgap and economic considerations. Efforts have been made to

Fabricating High‐Efficiency Sb2(S,Se)3 Solar Cells by Novel

Antimony selenosulfide (Sb 2 (S,Se) 3) solar cells have achieved an efficiency of over 10.0%.However, the uncontrollable hydrothermal process makes preparing high-quality

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