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Perovskite cell efficiency boosted to over 16 percent

Japanese group improves conversion efficiency in cells larger than 1cm2

A research group led by Liyuan Han at the Photovoltaic Materials Unit, National Institute for Materials Science (NIMS) in Japan has reported improving the power conversion efficiency (PCE) of perovskite solar cells to over 16 percent while employing cells that were greater than 1 cm2. The study was published in the online version of Science on October 29, 2015.

The high efficiency cells also passed the durability test (exposure to AM 1.5G 100 mW/cm2 sunlight for 1,000 hours), which is considered to be a basic criterion for practical use. These achievements were made by replacing the conventional organic materials with inorganic materials as the electron and hole extraction layers of the solar cells.

There are high expectations for perovskite solar cells as they may be produced at lower cost than silicon solar cells. However, high efficiency perovskite solar cells have often been reached with poor stability and small area typically less than 0.1 cm2. As such a small device size is prone to induce measurement errors, an obligatory minimum cell area of  greater than 1 cm2 is required for certified PCEs to be recorded in the standard "˜Solar Cell Efficiency Tables' that allows the comparison of competing technologies. Therefore, in order to realise practical use of perovskite solar cells, it is urgent to conduct studies using larger cells and attain more reliable PCEs.

To solve these issues, the research group first replaced the conventional organic materials with robust inorganic materials for use in electron and hole extraction layers. Because these layers fabricated with inorganic metal oxide materials have high electrical resistance, it was necessary to reduce the thickness of the layers to several nanometers.

However, as the area of these thin layers increases, the occurrence of defects called pinholes also increases, leading to decreased PCEs. To deal with this problem, the research group increased the electrical conductivity of these layers by more than ten times through heavily doping in both electron and hole extraction layers.

In this way, the group successfully fabricated layers that have fewer pinholes over wide areas and are applicable at thicknesses of up to 10 to 20 nm. Using these layers, a PCE of 16 percent was repeatedly attained while employing cells that were greater than 1 cm2

Furthermore, the use of inorganic materials both in electron and hole extraction layers contributed to the control of PCE reduction within 10 percent even after undergoing 1,000 hours of continuous exposure to sunlight at an intensity of 1 sun, demonstrating outstanding reliability.

Based on these results, the group aims to develop more efficient light absorbing material capable of utilizing a greater amount of sunlight and precisely control the interfaces in the devices, for achieving higher PCEs and stability.

This study was conducted under the research topic 'Device physics of dye-sensitized solar cells' in the research area 'Creative research for clean energy generation using solar energy'  (research supervisor: Masafumi Yamaguchi, Principal Professor, Toyota Technological Institute) as part of the Strategic Basic Research Programs (specifically the CREST program) sponsored by the Japan Science and Technology Agency (JST). 

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