Progress in solar technologies – from research to application
EU group project presents its results: high efficiencies with less material
A workshop entitled "European Solar Technology Forum – from Research to Industrial Application" took place at HZB to conclude of the European CHEETAH project on November 30, 2017. More than 100 participants from the most important European research institutes in the field of photovoltaics and from numerous universities came together with representatives from industry in order to discuss the progress achieved by CHEETAH.
Three different types of soclar cells have been greatly improved:
Silicon photovoltaics: wafer thickness cut by half
Efforts in the field of silicon photovoltaics have been directed towards the use of ever-thinner wafers in manufacturing photovoltaic modules. Several modules whose cells were 90-100 microns thick were presented at the workshop. These enable considerable savings in materials compared to standard modules with cell thicknesses of 180 microns.
Reducing material consumption in chalcopyrite solar cells by implementing an integrated lens system.
The approach to saving materials in thin-film solar cells made of chalkopyrites (Cu(In,Ga)Se2) was different: the cells were reduced in area and an integrated lens system incorporated into the module to concentrate the sunlight irradiating the cells. The goal is to achieve an efficiency level at least as high as that of current commercial modules while using considerably less material. The first prototypes already demonstrate that the method works in principle and can even reach higher efficiency levels than standard cells under certain circumstances due to the higher light intensity.
Extending the operating life of hybrid solar cells
The third topic in CHEETAH involved organic and hybrid solar cells. In this part of the project, polymer encapsulation materials were measured in an extensive series of tests and correlated with the operating life of the cells. The operating life of these solar cells could be increased to several years using the best of these polymers.
The presentations can be viewed here
- Freeze casting - a guide to creating hierarchically structured materialsFreeze casting is an elegant, cost-effective manufacturing technique to produce highly porous materials with custom-designed hierarchical architectures, well-defined pore orientation, and multifunctional surface structures. Freeze-cast materials are suitable for many applications, from biomedicine to environmental engineering and energy technologies. An article in "Nature Reviews Methods Primer" now provides a guide to freeze-casting methods that includes an overview on current and future applications and highlights characterization techniques with a focus on X-ray tomoscopy.
- Cooperation with the Korea Institute of Energy ResearchOn Friday, 19 April 2024, the Scientific Director of Helmholtz-Zentrum Berlin, Bernd Rech, and the President of the Korea Institute of Energy Research (KIER), Yi Chang-Keun, signed a Memorandum of Understanding (MOU) in Daejeon (South Korea).
- Clean cooking fuel with a great impact for southern AfricaBurning biomass for cooking causes harmful environmental and health issues. The German-South African GreenQUEST initiative is developing a clean household fuel. It aims to reduce climate-damaging CO2 emissions and to improve access to energy for households in sub-Saharan Africa.