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Four-terminal heterojunction perovskite tandem solar cell with 30.09% efficiency

Developed by a Vietnamese-Korean research group, the complex PV device was built with a bottom bifacial crystalline silicon perovskite-filtered heterojunction sub-cell that is able to absorb all solar spectra in the short-wavelength range.

A Vietnamese-Korean research group has developed a four-terminal perovskite-silicon tandem solar cell with a special bifacial configuration for albedo reflection. The cell achieved a power conversion efficiency of 30.09% (taking into account the rear side performance).

The tandem device was built with a bifacial crystalline silicon perovskite-filtered heterojunction sub-cell, which the scientists described as able to absorb the solar spectrum from both the front and rear sides and achieve a significant enhancement compared with semitransparent amorphous silicon sub-cells, as it absorbs all solar spectra in the short-wavelength range.

The perovskite used in the sub-cell is methylammonium-lead (ΙΙ) iodide (CH3NH3PbI3). The hole and electron transport layers were developed with nickel(II) oxide (NiO) and PCBM, which is a solubilized version of the buckminsterfullerene C60, respectively.  The NiO was deposited through an atomic layer deposition (ALD) process, while spin coating was used to coat the PCBM on the absorber layer. Commercial Czochralski-grown n-type crystalline silicon wafers with a thickness of 200 microns were utilized for the heterojunction cell. Layers of the amorphous silicon were grown on the cell via plasma-enhanced chemical vapor deposition in a cluster system.

The researchers explained that in a traditional four-terminal perovskite/silicon configuration, the solar spectrum in the short-wavelength range is absorbed by the perovskite top sub-cell, while the remaining light is absorbed by the silicon heterojunction sub-cell beneath. “However, not all photons corresponding to bottom sub-cell’s optical bandgap can be yielded,” they further explained.

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In the proposed cell configuration, the bifaciality increases the number of absorbed photons. “As a result, short-circuit current and the conversion efficiency of the crystalline silicon heterojunction bottom sub-cell improved from ~ 15.15 to 33.5 mA/cm2 and from 8.68 to 12.99%, respectively, when the albedo reflection increased from 0 to 0.5 sun,” the academics stated. “The albedo reflection intensity can be accurately adjusted in the range of 0–0.5 sun by altering the distance between the cell holder and illumination source.”

This efficiency increase was able to raise the cell’s overall efficiency (including light reflected to the rear side) from 25.78 to 30.09%. The solar cell is presented in the paper Over 30% efficiency bifacial 4-terminal perovskite-heterojunction silicon tandem solar cells with spectral albedo, published in scientific reports. The research group comprises scientists from the Incheon National University and the Sungkyunkwan University (SKKU) in South Korea, as well as the National University and the Ton Duc Thang University in Vietnam.

“This approach achieved a conversion efficiency exceeding 30%, which is higher than those of both the top and bottom sub-cells,” reads the study. “Notably, this efficiency is also greater than the Schockley–Quiesser limit of the single-junction c-Si solar cell (approximately 29.43%).”

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Source: pv magazine