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On May 25, 2016, the Nanoelectronics Research Center IMEC (Leuven, Belgium) partnered with Solliance to launch translucent perovskite photovoltaic modules for the first time, achieving power conversion efficiencies of up to 12%.
The company reports that the technology contributes to the realization of translucent photovoltaic windows, which is also a key technology for
zero-energy buildings.
By combining these modules with silicon solar cells, the perovskite stacked solar cell module conversion efficiency can reach 20.
2%.
Tom Aernouts, Technical Manager Thin-Film PV, commented: "We are very proud of these results, as these technologies demonstrate that we have great control over
the performance of our products.
In the future, we will continue to increase module size and optimize perovskite solar cell technology
.
”
Stand-alone perovskite-type solar modules have excellent power conversion efficiency and can be manufactured using simple manufacturing techniques such as coating and printing
.
Perovskites can be achieved
by flexible (plastic film or metal foil) as well as rigid (glass, metal) supports.
The photoelectric performance of perovskite solar cells can be changed by adjusting the composition of the material composition, and the color and transparency can be adjusted
.
IMEC translucent perovskite modules are achieved through scalable coating technology with a conversion efficiency of 12% for modules measuring 4 square centimeters and 10% for modules measuring 16 square centimeters, which is world-class in this field
.
The combination of perovskite solar modules and silicon solar modules makes the energy conversion efficiency greater than 30%, exceeding the optimal efficiency
of single-junction silicon solar cells.
Imec's latest stacking module concept involves stacking highly transparent perovskite-type solar modules on top
of staggered back-contact (IBC) silicon solar cells.
The translucent perovskite top module shows that the crystalline silicon solar cell has achieved 70%
light transmission.
On May 25, 2016, the Nanoelectronics Research Center IMEC (Leuven, Belgium) partnered with Solliance to launch translucent perovskite photovoltaic modules for the first time, achieving power conversion efficiencies of up to 12%.
The company reports that the technology contributes to the realization of translucent photovoltaic windows, which is also a key technology for
zero-energy buildings.
By combining these modules with silicon solar cells, the perovskite stacked solar cell module conversion efficiency can reach 20.
2%.
Tom Aernouts, Technical Manager Thin-Film PV, commented: "We are very proud of these results, as these technologies demonstrate that we have great control over
the performance of our products.
In the future, we will continue to increase module size and optimize perovskite solar cell technology
.
”
Stand-alone perovskite-type solar modules have excellent power conversion efficiency and can be manufactured using simple manufacturing techniques such as coating and printing
.
Perovskites can be achieved
by flexible (plastic film or metal foil) as well as rigid (glass, metal) supports.
The photoelectric performance of perovskite solar cells can be changed by adjusting the composition of the material composition, and the color and transparency can be adjusted
.
IMEC translucent perovskite modules are achieved through scalable coating technology with a conversion efficiency of 12% for modules measuring 4 square centimeters and 10% for modules measuring 16 square centimeters, which is world-class in this field
.
The combination of perovskite solar modules and silicon solar modules makes the energy conversion efficiency greater than 30%, exceeding the optimal efficiency
of single-junction silicon solar cells.
Imec's latest stacking module concept involves stacking highly transparent perovskite-type solar modules on top
of staggered back-contact (IBC) silicon solar cells.
The translucent perovskite top module shows that the crystalline silicon solar cell has achieved 70%
light transmission.
