Periodic Reporting for period 1 - S-PSK-PSK-MJ-PSC (STABLE PEROVSKITE-PEROVSKITE MULTIJUNCTION SOLAR CELLS)
Reporting period: 2020-09-01 to 2022-08-31
The key challenge of PSK-PSK MJ photovoltaics is the lack of a stable and high efficiency LBG perovskite bottom solar cell. In this project, this challenge will be tackled by researching and developing LBG perovskites of 2D/3D and stable perovskite structure. The overarching targets are I) developing an efficient and stable 2D/3D LBG PSCs II) employing the stable and efficient LBG PSCs in a PSK-PSK MJ SC with PCE of >27% and >100 hours of stable power output. This project will reach these targets along the research objectives outlined below:
a) Engineering Low Bandgap PSCs with Bandgap of 1.1 - 1.3 eV.
b) Demonstrating High Efficiency in LBG PSCs.
c) Demonstrating High Stability in LBG PSCs.
d) Prototype of PSK-PSK MJ SCs.
1. Design of the architecture of the efficient and stable LBG PSCs and PSK-PSK MJ SCs (Risk assessment: no risk) as a part of (D.2.1)& (D.2.2).
2. We were able to reach stable LBG perovskite solar cells.The paper is under reviwer as a part of (D.3.1) (D.3.2) and (D.P.1-D.P.3).
3. We were able to reach efficient and stable WBG PSC as a part of (D.4.1).
4. We prepared the models of the optical efficient LBG PSC and PSK-PSK MJ SC(D.2.3) and (D.2.4).
5. We were able to reach high-efficiency monolithic all-perovskite tandem solar cells with power conversion efficiency exceeding 24.3% as a part of (D.5.1) and (D.P.1-D.P.3).
6. We made a large-scale monolithic all-perovskite tandem solar cells which the corresponding paper is going to be submited in two weeks as a part of (D.5.1) and (D.P.1-D.P.3) .
7. I actively participated in the weekly and monthly meetings of Perovskite taskforce and N4E division meetings as a part of (D.G).