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#Optical absorption quantumwise free

Resume : There are a large variety of materials being developed for application in solar energy conversion.

Computational design for photoactive materials (photovoltaics, water splitting…) Īffiliations : Department of Materials, Imperial College London, UK.

Novel p-type transparent conducting oxides.

Emerging earth abundant solar absorbers and solar fuel materials and nanomaterials.

Hot topics to be covered by the symposium: We are also interested in submissions around inorganic-organic halide perovskites and related materials. Materials will include (but will not be limited to) sulfides/selenides (Cu2S, WSe2, SnS,Se, FeS2, CZTS,), nitrides (Zn(Ge, Si,Sn)N2, Cu3N) phosphides (ZnSnP2, Zn3P2), oxides (ZnVO, ZnSnO, Cu2O), and related multinary compounds and devices. The symposium will target all the material layers of importance for solar devices: solar cell absorbers, water splitting, photoelectrodes, transparent conductors, electrocatalysts for oxygen and hydrogen evolution, buffer, interface layers as well as other components of importance to thin film photovoltaics and solar fuel devices will be considered. Presentations will focus on relevant materials, nanomaterials, interfaces and devices. Novel experimental techniques for synthesis and characterization as well as theoretical, computational and modeling methods are of interest. The focus will be on issues that are relevant to development of solar cell and solar fuel technologies outside of those already well developed industrially. The scope of this symposium is to provide a discussion forum for researchers working on the early stages of development of earth abundant and newly emerging materials for thin film photovoltaics and solar fuel production. This symposium will address fundamental and applied aspects of emerging solar absorbers and related materials and will highlight recent developments in both experimental and theoretical/computational approaches. More specifically, the understanding and control of key materials properties such as optical absorption, carrier mobility etc… are essential to the design and development of new solar-based energy technologies.

#Optical absorption quantumwise free

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