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''<big>'''<big> Research activities of MaCEPV team </big>'''</big>'' |
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The MaCEPV team is running multidisciplinary research activities ranging from the ‘’’synthesis of materials’’’ with physical and chemical tools to the ‘’’achievement of elementary devices’’’ (diodes, transistors, memories, solar cells), through the ‘’’characterization of charge transport’’’ in such devices. The scientific objectives are the understanding of the mechanisms that govern the growth of films (organic or inorganic) or nanoparticles, the modification of these materials by chemical or physical treatments, and finally the correlation of the structural and morphological properties of the elaborated materials with their optical, electronical and opto-electronical characteristics. <br> |
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More specifically, the investigations of the team concern the development of innovative processes for first (multicrystalline, ribbon) and second generation (thin film) silicon photovoltaic cells, the development and characterization of oxide-based and nitride-based nanostructured materials for optoelectronics, the study and optimization of organic photovoltaic cells and sensors, the use of ion beams for the synthesis of semiconductor or metallic nanocrystals, the synthesis and study of optoelectronic properties of carbon nanomaterials ranging from carbon nanotubes to graphene / DLC. <br> |
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L’équipe a développé ses activités grâce à la plate-forme technologique (C3-Fab) comprenant plusieurs équipements originaux pour l’élaboration et les analyses structurales et optoélectroniques des matériaux et composants. Les recherches sont partiellement financées par des projets nationaux, européens et internationaux ou à travers des partenariats industriels (ST-Microelectronics, SOPREMA, SOLARFORCE, STile, Thalès…). <br> |
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Over the period 2011-2016, our work has resulted in more than 160 publications in scientific journals (4.5 publications / researcher / year), 13 contributions to book chapters, 2 CNRS patents and 70 conferences, including 26 as guest speakers. Finally, we trained 16 doctoral students over this period and 6 thesis are currently in progress. |
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[[File:Macepv-inorg11.jpg|thumb|upright=1.25|gauche|link= Materials and concepts for inorganic photovoltaics|[[Materials and concepts for inorganic photovoltaics]]]] |
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[[File:Cellule6aRed2.jpg|thumb|upright=1.3|gauche|link= Organic electronic and photovoltaic devices|[[Organic electronic and photovoltaic devices]]]] |
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The MaCEPV team is running multidisciplinary research activities ranging from the synthesis of materials with physical and chemical tools to the achievement of elementary devices (diodes, transistors, memories, solar cells), through the modeling of charge transport in such devices. More specifically, the investigations concern the development of innovative processes for wafer based silicon solar cells (multicrystalline, ribbon), the formation and characterization of ultrathin film silicon solar cells on foreign substrates, the synthesis and characterization of oxide/nitride based nanostructured materials for optoelectronics, the optimization of transistors and organic solar cells, the modification/synthesis of new materials by ion beams for the development of innovative electronic components, the development of models and simulation tools to study the charge transport in photovoltaic and electronic components.<br> |
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The MaCEPV team owns advanced infrastructures such as two technological platforms (clean room, glove box), unique facilities for the synthesis of materials (ion implanters, lasers, CVD, sputtering), for structural analysis (RBS, ERDA, Raman ...) and for optoelectronic investigations (photoluminescence, spectral response, ...) in addition to setups for the analysis of devices. The Modeling activities rely on computers and simulation tools developed in-house or commercial software (Monte-Carlo, scripts, COMSOL Multiphysics, ...).<br> |
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The MaCEPV team is involved in numerous national (ANR, AMI...) and European projects (INTERREG, FP7, EUROGIA...) as well as in international collaborations (Kazakhstan, Belarus, Turkey ...).<br> |
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Version du 13 mars 2018 à 15:12
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Research activities of MaCEPV team |
The MaCEPV team is running multidisciplinary research activities ranging from the ‘’’synthesis of materials’’’ with physical and chemical tools to the ‘’’achievement of elementary devices’’’ (diodes, transistors, memories, solar cells), through the ‘’’characterization of charge transport’’’ in such devices. The scientific objectives are the understanding of the mechanisms that govern the growth of films (organic or inorganic) or nanoparticles, the modification of these materials by chemical or physical treatments, and finally the correlation of the structural and morphological properties of the elaborated materials with their optical, electronical and opto-electronical characteristics.
More specifically, the investigations of the team concern the development of innovative processes for first (multicrystalline, ribbon) and second generation (thin film) silicon photovoltaic cells, the development and characterization of oxide-based and nitride-based nanostructured materials for optoelectronics, the study and optimization of organic photovoltaic cells and sensors, the use of ion beams for the synthesis of semiconductor or metallic nanocrystals, the synthesis and study of optoelectronic properties of carbon nanomaterials ranging from carbon nanotubes to graphene / DLC.
L’équipe a développé ses activités grâce à la plate-forme technologique (C3-Fab) comprenant plusieurs équipements originaux pour l’élaboration et les analyses structurales et optoélectroniques des matériaux et composants. Les recherches sont partiellement financées par des projets nationaux, européens et internationaux ou à travers des partenariats industriels (ST-Microelectronics, SOPREMA, SOLARFORCE, STile, Thalès…).
Over the period 2011-2016, our work has resulted in more than 160 publications in scientific journals (4.5 publications / researcher / year), 13 contributions to book chapters, 2 CNRS patents and 70 conferences, including 26 as guest speakers. Finally, we trained 16 doctoral students over this period and 6 thesis are currently in progress.
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ICube UMR 7357 - Engineering science, computer science and imaging laboratory
D-ESSP department - MaCEPV team - 23, rue du Loess - BP 20 CR - 67037 STRASBOURG Cedex 2 - France - Tel.: +33 (0)3 88 10 6328
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