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Space-Level Perovskite Solar Cell
Produktdetail
|
Technische Daten |
50mm×50mm |
|
Photoelektrische Umwandlungseffizienz |
23,9 % bei AM0, 22,7 % bei AM1,5 |
|
Schlagfestigkeitsprüfung bei hohen und niedrigen Temperaturen |
Die Testtemperatur beträgt -90 °C bis +90 °C, die Heizrate beträgt 20 °C/min und die Anzahl der Stöße beträgt 500 Mal, was einem kontinuierlichen Fortschritt entspricht. |
|
Elektronenbestrahlungstest |
Under the condition of 1MeV, 3×1014e/cm2 irradiation, after annealing under AM0 irradiation for 24h, the photoelectric conversion efficiency of solar cell decreases from 23.9% to 22.8% |
|
Gewicht |
0,8 kg/m2 (starre Perowskit-Solarzelle), 0,5 kg/m2 (flexible Perowskit-Solarzelle) |
Produktbeispiele
Calcium-Titan-Mineral-Solarzelle mit Einzelübergang
Calcium-Titan-Mineral-Solarzelle mit Einzelübergang und 23,9 % Wirkungsgrad;
Monolithic size :50mm×50mm;
-100℃~+110℃ Betriebstemperatur;
Abbaubare, silberbeschichtete Sammelschiene;
Beständig gegen Protonenbestrahlung/Elektronenbestrahlung;
Der Boden altert durch Hoch- und Niedertemperaturzyklen.
Stacked Perovskite Solar Cell
Gestapelte Calcium-Titan-Mineral-Solarzelle mit 24,5 % Wirkungsgrad;
Monolithic size :50mm×50mm;
-100℃~+110℃ Betriebstemperatur;
Abbaubare, silberbeschichtete Sammelschiene;
Beständig gegen Protonenbestrahlung/Elektronenbestrahlung;
Der Boden altert durch Hoch- und Niedertemperaturzyklen.
Flexible Perovskite Solar Cell
Integriertes PI-Membrandesign;
Stabile Leistung nach hoher Biegebeanspruchung;
Adapts to 180° full angle bending.
The Space-Level Calcium-Titanium-Mineral Solar Cell(perovskite solar cell) is a cutting-edge photovoltaic technology designed to deliver high-efficiency energy conversion in extreme conditions, including space applications. It incorporates a unique combination of calcium, titanium, and mineral-based materials to enhance the solar cell’s durability, efficiency, and resistance to radiation, making it ideal for satellite power generation and other space-based energy needs. These solar cells are engineered with advanced coatings and high-performance semiconductor materials to ensure maximum energy absorption and conversion, even in harsh environments. The design allows for optimal thermal stability and resistance to cosmic radiation, ensuring that the solar cell maintains its functionality over prolonged periods in space. Additionally, these cells are lightweight, compact, and capable of operating efficiently in a variety of orientations, making them suitable for use in space missions, low-Earth orbit satellites, and deep space exploration systems.
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