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Thin Film Deposition Processes for Halide Perovskites
Expanding solar power into new application areas requires physical flexibility that brittle silicon cannot provide, creating opportunities for new solar cell materials. Over the last
HelsinkiALD | University of Helsinki
Our main research topic is Atomic Layer Deposition (ALD) but also other methods for thin film deposition and nanostructure preparation are studied. After starting in 1991, our group has
Atomic Layer Deposition as key enabler of scalable and stable
Our approach relies on atomic layer deposition (ALD), a unique method that enables the deposition of uniform films on large areas. The work will be done at the department of
ALD coatings for next-generation solar cells
Coatings produced through atomic layer deposition are used in roughly 30% of silicon-based solar panels. The ALD group headed by Professor Mikko Ritala at the University of Helsinki has
Atomic Layer Deposition as key enabler of scalable and stable
Equipment 1 results Title (ascending) HelsinkiALD Putkonen, M. (Manager), Ritala, M. (Manager), Mäntymäki, M. (Operator), Kemell, M. (Operator), Vehkamäki, M. (Operator) & Heikkilä, M.
Atomic layer deposition as a key enabler of
The most promising new solar cell technology is based on halide perovskites. The heart of the halide perovskite solar cell is a thin
University of Helsinki researchers are working on ALD coatings
Coatings produced through atomic layer deposition are used in roughly 30% of silicon-based solar panels. The ALD group headed by Professor Mikko Ritala at the University
News
ALD coatings for next-generation solar cells Researchers at the University of Helsinki are developing thin films needed in new types of halide perovskite solar cells, and
Atomic layer deposition as a key enabler of scalable and stable
The most promising new solar cell technology is based on halide perovskites. The heart of the halide perovskite solar cell is a thin film of light-absorbing material that has the
Atomic Layer Deposition as key enabler of scalable and stable
Atomic Layer Deposition as key enabler of scalable and stable perovskite solar cells
Thin Film Deposition Processes for Halide
Expanding solar power into new application areas requires physical flexibility that brittle silicon cannot provide, creating opportunities
Glass photonics meets photovoltaics: general principles and a
In this study, we present a promising combination of glass photonics and photovoltaics to develop more efficient types of solar cells.
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