JournalArticle SearchList By TopicSubmit ArticleRegister
ResourcesWhite PapersGlossaryStock TrackerPresentations
2 Mar 2012 | Germany
Back-contact heterojunction solar cell by HZB and ISFH
Independent testing lab confirms 20.2 percent
A novel type of solar cell called a "back-contact heterojunction solar cell" has achieved an enormous jump in efficiency. While values published in 2011 hovered around 15 to 16 percent, an advanced development has now reached 20.2 percent efficiency.
It was developed at the Institute for Silicon Photovoltaics (E-I1) of Helmholtz Zentrum Berlin (HZB) in collaboration with the Institute for Solar Energy Research Hameln (ISFH) in a project funded by the Federal Ministry for the Environment and the companies Bosch, Schott Solar, Sunways and Stiebel Eltron.
This record was measured at an independent calibration laboratory at the Fraunhofer Institute for Solar Energy Systems (ISE) in Freiburg im Breisgau, Germany.
Back-contact heterojunction solar cells unify two different photovoltaic technologies and their advantages: back contacts and silicon heterojunctions. In back-contact solar cells, the metal fingers that collect the electricity produced in sunlight rest on the reverse side of the cell. This avoids shadowing and allows wide, low-resistance contact fingers to be used.
Heterojunction technology is where two semiconductors with different band gaps are used together in a solar cell. In the present case, these are crystalline and amorphous silicon, which results in high efficiency on its own. "Both methods have the advantage of already being used in industry," says HZB institute director Prof. Dr. Bernd Rech. "By combining both concepts, it should be possible to reach very high efficiencies of up to 25 percent. If so, we could significantly reduce the price per Watt produced. Our proof-of-concept study has now taken us a big step forward. What we need to do now is increase the efficiency even further and develop the simplest possible manufacturing process."
The first publications on silicon-based heterojunction solar cells date back to 2007, as do publications from the HZB institute (Stangl et al.). The published efficiencies of these cells were typically in the range of 15 to 16 percent up until 2011. At the end of 2011, at the European Photovoltaics Conference, solar cell manufacturer LG reported an efficiency of greater than around 22 percent, although this had not yet been confirmed by an independent party.
In the spring of 2011, a small-area laboratory cell was produced with an efficiency of 20.2 percent (Mingirulli et al. pss rrl, March 2011). The back-contact heterojunction solar cell developed by HZB and ISFH in their "TopShot" project has now been measured by the calibration laboratory ISE CalLab, and has reached the highest independently confirmed efficiency of this type of solar cell.
"If experts from different fields work well together, that accelerates the development considerably," Prof. Dr. Nils-Peter Harder of ISFH declares.
Source: Helmholtz-Zentrum Berlin
For more attend: Printed Electronics Europe 2012 .
Thin film, printed/vacuum processed, flexible/rigid: costs and rival analysisTechnology and market appraisal
- Organic Photovoltaics (OPV) 2013-2023: Technologies, Markets, Players
- Dye Sensitized Solar Cells (DSSC/DSC) 2013-2023: Technologies, Markets, Players
- Thin Film Photovoltaics 2012-2022: Forecasts, Technologies, Analysis
- Barrier Layers for Flexible Electronics 2015-2025: Technologies, Markets, Forecasts
- Printed, Organic & Flexible Electronics Forecasts, Players & Opportunities 2014-2024
- Transparent Conductive Films (TCF) 2014-2024: Forecasts, Markets, Technologies
- Energy Harvesting and Storage 2014-2024: Forecasts, Technologies, Players
- Electrochemical Double Layer Capacitors: Supercapacitors 2014-2024
- Introduction to Printed, Organic and Flexible Electronics
Organic Photovoltaics (OPV) 2013-2023: Technologies, Markets, Players
Dye Sensitized Solar Cells (DSSC/DSC) 2013-2023: Technologies, Markets, Players
Thin Film Photovoltaics 2012-2022: Forecasts, Technologies, Analysis
Barrier Layers for Flexible Electronics 2015-2025: Technologies, Markets, Forecasts
Printed, Organic & Flexible Electronics Forecasts, Players & Opportunities 2014-2024
Transparent Conductive Films (TCF) 2014-2024: Forecasts, Markets, Technologies
Energy Harvesting and Storage 2014-2024: Forecasts, Technologies, Players
Electrochemical Double Layer Capacitors: Supercapacitors 2014-2024
Introduction to Printed, Organic and Flexible Electronics
Engineers identify, address cause of persistent solar cell issue
From nutshell to supercapattery
World's first BIOPV concrete façade installation
IDTechEx explains technology roadmap for electric vehicles
Secondary battery with 3 times higher energy density
Ultra-high energy density advanced lithium polymer batteries