Results

D3.1: Production of sufficient cell precursors by month 12
D3.2: Selection of industrial approaches for high-temperature passivating contacts
D3.3: n-PERT cell with a top efficiency ≥ 22.5%
D3.4: Production of sufficient cell precursors by month 24 (due September 2021)
D3.5: Selection of the most suitable cutting and edge passivation methods for SHJ and IBC cells
D3.6: Selection of the most suitable approach(es) for structuring passivating contact layers in IBC cells (due September 2021)
D3.7: IBC cell with an integrated bypass-diode (due September 2021)
D3.8: n-PERT cell with a top efficiency ≥23.0% on ¼ (or smaller) cut-cells (due September 2022)
D3.9: SHJ cell with a top efficiency ≥23.5% (fullsize) and ≥23.3% (cutcells) (due September 2022)
D3.10: IBC cell with a top efficiency ≥24.5% (fullsize) and ≥24.3% (cutcells) (due September 2022)
D3.11: Evaluation of prototype platform for I-V testing and EL of shingles (due September 2022)

D4.1: Prototype machine for back-contact module assembly
D4.2: Shingle assembly tool v1
D4.3: TLS-dicing module (due March 2021)
D4.4: Shingle assembly tool v2 (due September 2022)
D4.5: Design of high throughput machine for back-contact module assembly (due September 2022)
D4.6: Comparison of the various cell assembly methods developed (due September 2022)

D5.1: Selection of subcontractor for VIPV integration
D5.2: 3D-curved VIPV module based on IBC cells (due September 2021)
D5.3: 3D-curved VIPV module based on shingled nPERT cells (due September 2021)
D5.4: 3D-curved, uniformcoloured module prototype with efficiency ≥19% and weight ≤8 kg/m² (due March 2022)
D5.5: Module made from shingled SHJ cells with a cell-to-module power of 105% (due September 2022)
D5.6: Module made from shingled nPERT cells with a cell-to-module power of > 105% (due September 2022)
D5.7: BAPV module with efficiency ≥22% and carbon footprint ≤250 kg-eq. CO2/kWp (due September 2022)
D5.8: Lightweight BIPV module with ≤ 5 kg/m² and homogeneous colour appearance (due September 2022)
D5.9: BIPV module prototype for facade integration with efficiency ≥21% (due September 2022)
D5.10: 3D-curved module with efficiency ≥20% and weight ≤5 kg/m² (due September 2022)

D6.1: Evaluation of outdoor monitoring procedures
D6.2: Intermediate monthly-score cards results (due March 2022)
D6.3: Results of VIPV outdoor monitoring (due May 2022)
D6.4: Monofacial BAPV module with a system yield of >1000 kWh/kWp (due May 2022)
D6.5: Final monthly-score cards results (due September 2022)
D6.6: Public dissemination of monthly-score cards results (due September 2022)

D7.1: Intermediate indoor module characterization results
D7.2: Intermediate module reliability testing results
D7.3: Pathways to maximize module efficiency and energy yield to achieve project goals
D7.4: Evaluation of efficiency losses due to cut-edge recombination (due September 2021)
D7.5: Final indoor module characterization results (due September 2022)
D7.6: Final module reliability testing results (due September 2022)
D7.7: Energy yield simulations for the various PV modules and systems developed (due September 2022)

D8.1: Intermediate cost evaluation
D8.2: Intermediate environmental evaluation
D8.3: Final cost evaluation (due September 2022)
D8.4: Final environmental evaluation (due September 2022)
D8.5: Plans for innovative and potentialy large-scale PV manufacturing plants (due September 2022)