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- Mehr als nur "Fassade": Nachhaltige Energieversorgung durch SolarfassadenEin Beitrag über die nachhaltige Energieversorgung durch Solarfassaden
- Solar cells: Losses made visible on the nanoscaleSolar cells made of crystalline silicon achieve peak efficiencies, especially in combination with selective contacts made of amorphous silicon (a-Si:H). However, their efficiency is limited by losses in these contact layers. Now, for the first time, a team at Helmholtz-Zentrum Berlin (HZB) and the University of Utah, USA, has experimentally shown how such contact layers generate loss currents on the nanometre scale and what their physical origin is. Using a conductive atomic force microscope, they scanned the solar cell surfaces in ultra-high vacuum and detected tiny, nanometre-sized channels for the detrimental dark currents, which are due to disorder in the a-Si:H layer.
- 21.01.: Seminar zu klimaneutralem Planen, Bauen und BetreibenBauwerkintegrierte Photovoltaik (BIPV) bietet in Städten und Gemeinden enorme Möglichkeiten, aktiv zum Klimaschutz beizutragen. Im Seminar geht es um die baurechtlichen Anforderungen, den Brandschutz und den Einsatz verschiedener PV-Materialien.
- Silicon-perovskite tandem solar cells: New facilities pave the way for industrial-scale production
Perovskites are regarded as promising materials for solar cells, able to be manufactured at low cost while at the same time being extremely efficient. They are particularly suitable for tandem solar cells that combine a cell made of silicon and one of perovskite. As a result, sunlight is more completely used when generating electrical energy. So far, the advantages of such cells have only been available for use at small laboratory scale. With two new, highly innovative production facilities, researchers at the Helmholtz-Zentrum Berlin für Materialien und Energie (HZB) are now creating the basis for future production on an industrial scale.
- Research team provides concrete approach to improve the performance of CIGS solar cells
A team of researchers used electron microscopes and computer simulations to investigate where losses occur in thin-film solar cells. The researchers from the Martin Luther University Halle-Wittenberg, the Centre for Solar Energy and Hydrogen Research Baden-Württemberg (ZSW) and the Helmholtz Zentrum Berlin (HZB) provide specific information on how the already high efficiency of CIGS solar cells can be improved. The results were published in the journal Nature Communication.
- Best electrolyser/photovoltaics combinations demonstrated in test fieldsOne of the most promising ways to increase the availability of solar energy is to convert excess production into hydrogen. The PECSYS project has investigated the best possible material and technology combinations to facilitate such an operation.
- Seminar für Architekt*innen Bauwerkintegrierte Photovoltaik: Architektur – Gestaltung und AusführungIm September veranstaltet die Beratungsstelle für bauwerkintegrierte Photovoltaik (BIPV) „BAIP“ zusammen mit der Architektenkammer Niedersachsen ein Seminar für Architekt*innen zum Thema Bauwerkintegrierte Photovoltaik: Architektur-Gestaltung und Ausführung
- Portrait: The athlete in the lab coatSteve Albrecht is researching on perovskite solar cells and holds several efficiency world records with his team. Back in his schooldays, he was going to become either a competitive gymnast or a scientist. He chose science, but the same athletic ambition still drives his research forward.
- World Record: Efficiency of perovskite silicon tandem solar cell jumps to 29.15 per centIn the race for ever higher efficiency levels, an HZB development team has once again pulled ahead. The groups of Steve Albrecht and Bernd Stannowski have developed a tandem solar cell made of the semiconductors perovskite and silicon, that converts 29.15 per cent of the incident light into electrical energy. This value has been officially certified by the CalLab of the Fraunhofer Institute for Solar Energy Systems (ISE) and means that surpassing the 30 per cent efficiency mark is now within reach.
- Invitation: Climate change - from knowledge to action
Climate change and its causes are undisputed. But how do we get from knowledge to action? What can science contribute to this? On Thursday, 5.12.2019 at 17:00 Clara Mayer (Fridays for Future), Volker Quaschning (HTW Berlin and Scientists for Future), Bernd Rech (scientific director of the HZB) and Kira Vinke (Potsdam Institute for Climate Impact Research) will discuss these questions. The event takes place in the Bunsen lecture hall of WISTA in Adlershof and is open to the public. Admission is free.
- Reaching climate targets with building integrated PhotovoltaicsBy 2050, the building stock in Germany must be almost climate-neutral in order to achieve the climate targets - an ambitious goal. Especially in cities with multi-storey buildings, roof areas alone do not offer sufficient space to cover a significant portion of the electricity demand with photovoltaics. There is now a wide range of façade elements that generate photovoltaic electricity. So far, however, such building-integrated PV modules have rarely been installed. The Advisory Centre for Building Integrated Photovoltaics (BAIP) at HZB wants to change this:
- World record for tandem perovskite-CIGS solar cellA team headed by Prof. Steve Albrecht from the HZB will present a new world-record tandem solar cell at EU PVSEC, the world's largest international photovoltaic and solar energy conference and exhibition, in Marseille, France on September 11, 2019. This tandem solar cell combines the semiconducting materials perovskite and CIGS and achieves a certified efficiency of 23.26 per cent. One reason for this success lies in the cell’s intermediate layer of organic molecules: they self-organise to cover even rough semiconductor surfaces. Two patents have been filed for these layers.
- Photovoltaics are growing faster than expected in the global energy systemDramatic cost reductions and the rapid expansion of production capacities make photovoltaics one of the most attractive technologies for a global energy turnaround. Not only the electricity sector, but also transport, heating, industry and chemical processes will in future be supplied primarily by solar power, because it is already the cheapest form of electricity generation in large parts of the world. This is where opportunities and challenges lie - at the level of the energy system as well as for research and industry. Leading international photovoltaic researchers from the Global Alliance for Solar Energy Research Institutes describe the cornerstones of future developments in an article published in the journal "Science" on 31 May.
- Towards the Climate Neutral City: Independent consulting office for integrating photovoltaics into buildingsThe Helmholtz-Zentrum Berlin is opening a national consulting office for integrating photovoltaics into buildings (BAIP) this spring. The consulting office will support building owners, architects, and municipal planners in activating building envelopes for power generation. The project is being funded by the Helmholtz Association over a period of four years as part of its knowledge transfer programme.
- Perovskite-silicon solar cell research collaboration hits 25.2% efficiencyA 1 cm2 perovskite silicon tandem solar cell achieves an independently certified efficiency of 25.2 %. This was presented this week at an international conference in Hawaii, USA. The cell was developed jointly by HZB, Oxford University and Oxford PV - The Perovskite CompanyTM.
- Alliance Building Integrated Photovoltaics: Björn Rau joins Management BoardThe General Meeting of Alliance for Builiding Integrated Photovoltaics (BIPV) has unanimously elected physicist and photovoltaic expert Dr. Björn Rau, Helmholtz-Zentrum Berlin, to the BIPV Management Board.
- Oxford PV collaborates with HZB to move perovskite solar cells closer to commercialisationPerovskite solar technology leader Oxford PV collaborates with leading German research centre to support the accelerated transfer of its technology into silicon cell manufacturing lines.
- PVcomB and AVANCIS launch joint MyCIGS research project in order to improve outdoor performance of thin film CIGS solar modulesThe Competence Centre Thin-Film- and Nanotechnology for Photovoltaics Berlin (PVcomB) is contributing its expertise to improving copper-indium-gallium-sulphide (CIGS) thin-film production in the MyCIGS collaborative research project. CIGS-module manufacturer AVANCIS in Munich is coordinating this project funded by the German Federal Ministry for Economic Affairs and Energy (BMWi). The Carl von Ossietzky University of Oldenburg (Oldenburg University) and Friedrich-Alexander-Universität Erlangen-Nuremberg (FAU) are also partners in the project.
- Solar based hydrogen generation: EU-project PECSYS aiming for technological breakthroughDevelopment of demonstrators measuring up to ten square meters in area planned