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The highest efficiency cells have not always been the most economical – for example a 30% efficient multijunction cell based on exotic materials such as gallium arsenide or indium selenide produced at low volume might well cost one hundred times as much as an 8% efficient amorphous silicon cell in mass production, while delivering only about ...
One example is amorphous silicon solar cells, where triple-junction tandem cells are commercially available from Uni-Solar and other companies. In 2023 Chinese manufacturer LONGi Green Energy Technology Co. announced a tandem silicon/perovskite cell that achieved 33.9% efficiency, the first time a silicon-based cell has exceeded the S-Q limit. [15]
SHJ has the highest efficiency amongst crystalline silicon solar cells in both laboratory (world record efficiency) [2] [27] [29] and commercial production (average efficiency). In 2023, the average efficiency for commercial SHJ cells was 25.0%, compared with 24.9% for n -type TOPCon and 23.3% for p -type PERC. [ 34 ]
Solar-cell efficiencies of laboratory-scale devices using these materials have increased from 3.8% in 2009 [3] to 25.7% in 2021 in single-junction architectures, [4] [5] and, in silicon-based tandem cells, to 29.8%, [4] [6] exceeding the maximum efficiency achieved in single-junction silicon solar cells.
This means that most solar cell manufacturers are currently equipped to produce this type of solar cells. Consequently, a large body of research is being done all over the world to manufacture silicon wafer-based solar cells at lower cost and to increase the conversion efficiencies without an exorbitant increase in production cost.
Amorphous silicon (a-Si) is the non-crystalline form of silicon used for solar cells and thin-film transistors in LCDs.. Used as semiconductor material for a-Si solar cells, or thin-film silicon solar cells, it is deposited in thin films onto a variety of flexible substrates, such as glass, metal and plastic.