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Project News Details
| Title |
New dichalcogenide solar cell architecture promises 25% efficiency |
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|---|---|---|---|---|
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| Detail |
Stanford University researchers have explored the efficiency of a single-junction solar cell using transition metal dichalcogenides such as MoS2, MoSe2, WS2, and WSe2 as absorbers. The device has shown substantial light absorptance in ultra-thin 5-nanometer (nm) films, achieving high short-circuit current levels.
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| Country | ||||
| Source | PV-Magazine | |||
| Regions | Africa Asia Australia Europe North America Oceania South America | |||
| Sectors | Non-Renewable Energy Solar Photovoltaic PV Energy Architecture Construction Energy-Power and Electrical Computer Hardwares and Consumables Petroleum Products | |||
| Published Date | 12.11.2023 | |||
| Original Url | Original Url | |||
| Share | ||||
International
| Title |
|---|
|
New dichalcogenide solar cell architecture promises 25% efficiency
|
| Detail |
| Stanford University researchers have explored the efficiency of a single-junction solar cell using transition metal dichalcogenides such as MoS2, MoSe2, WS2, and WSe2 as absorbers. The device has shown substantial light absorptance in ultra-thin 5-nanometer (nm) films, achieving high short-circuit current levels. |
| Country |
|
International
|
| Source |
| PV-Magazine |
| Regions |
| Africa Asia Australia Europe North America Oceania South America |
| Sectors |
| Non-Renewable Energy Solar Photovoltaic PV Energy Architecture Construction Energy-Power and Electrical Computer Hardwares and Consumables Petroleum Products |
| Published Date |
| 12.11.2023 |
| Original Url |
| Share |
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