Strong consortium works on higher efficiencies in CIGS
AVANCIS and Smit Thermal Solutions team up with European research institutes HZB, CNRS and Solliance for higher efficiencies in CIGS
Thin-film photovoltaic CIGS technology has seen considerable growth of manufacturing capacity in recent years. The environmental impact, especially the CO2 footprint of CIGS thin-film panels shows great advantages compared to other solar technologies. CIGS panels show good performance in diffuse light conditions and at high temperatures, and are tolerant to partial shading. Additionally, the aesthetic qualities and the possibility of custom colors makes CIGS a superior PV technology for the application in building integrated photovoltaics (BIPV), e.g. in solar façades.
Een tandem zonnecel, die een semi-transparante perovskietcel en een CIGS-cel combineert, heeft in potentie een hogere efficiency dan conventionele single junction (dunne-film) zonnecel door band-gaps dusdanig in te stellen dat de beide cellen complementair aan elkaar worden. Anders gezegd, wat de éne cel niet absorbeert en omzet in elektrische energie, kan de andere cel omzetten.
Om maximale conversie-efficiëntie te realiseren, moeten de absorptie-eigenschappen van de bovenste perovskietcel en van de onderste CIGS-cel worden afgestemd. De perovskiet zonnecel werd gemaakt op een transparant en flexibel substraat, gebruikte transparante geleidende elektroden en werd geoptimaliseerd voor maximale conversie-efficiëntie van zichtbaar licht en transparantie van infrarood licht om het grootste deel van infrarood licht de onderste CIGS-cel te laten bereiken.
The fabrication process of the CIGS semiconductor layer is the key driver for both, the further increase of efficiency, and the reduction of manufacturing cost of CIGS solar modules. Based on the European energy research program SOLAR-ERA.NET, the solar companies equipment manufacturer Smit Thermal Solutions and solar company AVANCIS started a European collaboration with the leading research institutes Helmholtz-Zentrum Berlin (HZB), CNRS (Institut des Matériaux Jean Rouxel, Nantes) and TNO/Solliance with the new project ‘Sequential, High Uniformity, Cost Competitive Elemental Selenization and Sulfurization for CIGSSe2’, called SUCCESS. The aim of SUCCESS is the combination of a further cost-optimized CIGS processing and the high efficiencies reached with heavy alkali post-deposition treatment (PDT). An efficiency of more than 20% is finally targeted for 30x30cm2 AVANCIS’ modules.
‘Reaching the efficiency goal of more than 20% for a 30x30cm2 module, SUCCESS is set to pave the way for a further reduction of the total cost of electricity generated by the CIGS technology in any application from green field to building integrated PV’, says Dr. Jörg Palm, CTO of AVANCIS.
The non-vacuum Smit Thermal Solutions in-line selenization equipment provides a high degree of freedom in the CIGS semiconductor fabrication enabling further cost reduction at high efficiency levels. Using Smit Thermal Solutions prototype pilot equipment, notable efficiencies have already been reached by TNO/Solliance and HZB at cell level. As first steps in scaling-up, the homogeneity of the selenization process in the Smit Thermal Solutions equipment will be improved and it will be adapted for the 30x30cm2 AVANCIS R&D platform.
During the last three years, the conversion efficiency of CIGS record cells has been increased from 20.5% to 23.35% by using controlled PDT of the absorber layer with heavy alkali metals. Typically, these records are achieved with small cells measuring 1x1cm². The consortium aims to systematically investigate the impact of the heavy alkali doping in the absorber formation process as well as by PDT of the absorber and to ultimately apply this technology to large-area module production processes with a Cd-free buffer process.
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