Kaneka’s two-terminal tandem perovskite photo voltaic cell achieved the very best effectivity ever recorded for such a tool primarily based on an industrial Czochralski (CZ) silicon wafer. It has an open-circuit voltage of 1.929 V, a short-circuit present density of 19.5 mA cm−2, and a fill issue of 77.55%.
The Japanese chemical firm Kaneka designed a two-terminal (2T) perovskite-crystalline tandem photo voltaic cell utilizing a 145 μm thick industrial Czochralski (CZ) silicon wafer.
The corporate’s researchers constructed the cell utilizing a anti-kingflection intermediate layer counting on what they name “mild textured constructions” utilized to the entrance aspect beneath. It’s reported that it may possibly make a major enchancment on common mild confiresults of perovskite-silicon tandem units.
“Mild administration know-how is required to be absolutely useful the wide selection of the photo voltaic spectrum of a photo voltaic cell, esp for a 2T tandem construction, as a result of its higher and decrease cells electrically linked in sequence and required to fulfill the limitations on In the meantime matching WHERE THE Every the working level currents are aligned to some extent,” they mentioned. “Because of the massive distinction in refractive indices between perovskite and crystalline silicon (c-Si) supplies, the optimized intermediate layer as proven acts as an anti-reflection coating to forestall lack of reflection of infrared mild used within the backside cell.
the firm controls the morphology of the mushy texture of either side of the wafer by utilizing chemical etching. By the use of atomic pressure microscopy (AFM)it compares the efficiency of two absorbers with a mushy construction to the identical units with out the construction.
“By making use of mild texture, the photocurrent density of silicon decrease cell will increase the finished 2% from reference,” defined the corporate.
the firm made a prime cell with a substrate product of indium tin oxide (ITO), an electron transport layer product of buckminsterfullerene (C60), a passivation layer, the perovskite absorber, a self-assembled monolayer, an intermediate layer primarily based on ITO and microcrystalline silicon oxide (mc-SiOx). It then creates a backside cell with an n-doped amorphous silicon (an: Si) layer, a number of layers of silicon handled with completely different processes, and a backside contact product of ITO and silver (Ag).
“The passivation layer launched between C60 and perovskite layer and the thickness of c-Si wafer and prime ITO layer is decreased by this work,” the corporate defined. “After protecting the passivation layer, C 60 is successively evaporated on the perovskite movie.”
The tandem machine achieves an influence conversion effectivity of 29.2%an open-circuit voltage in 1.929 V, a short-circuit present density at 19.5 mA cm−2and a fill issue of 77.55%. The end result, verified by Fraunhofer ISE Callab, improves the 28.3% effectivity beforehand obtained by Kaneka for a tool with the identical structure, with the primary variations being the passivation layer and wafer thickness on.
“That is the very best certificationfied energy conversion effectivity of 2T perovskite-silicon tandem photo voltaic cells utilizing CZ wafer to our data,” mentioned the corporate, saying that they’re now contemplating transferring to a four-terminal (T4) configuration for additional machine improvement.
The corporate introduced the brand new cell in “Excessive effectivity perovskite/heterojunction crystalline silicon tandem photo voltaic cells: in the direction of industrial-sized cell and module,” which was just lately printed in Japanese Journal of Utilized Physics.
Kanela has beforehand developed what’s the second best photo voltaic cell primarily based on crystalline silicon – a 26.63%-efficient crystalline silicon photo voltaic cell with heterojunction and back-contact know-how.
*The article title has been up to date to point that the cell is a T2 machine and never a T4 cell, as we beforehand reported.
This content material is protected by copyright and will not be reused. If you wish to cooperate with us and wish to reuse a few of our content material, please contact: editors@pv-magazine.com.
