Sustainable Materials-By-Design for Renewable Energy

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PhD1 - Hybrid highly conducting transparent perovskite-halide perovskite solar cells
PhD2 - New synthetic layered silicates for band gap engineering. Application to a novel generation of solar cells.
PhD3 - Stable and transparent metallic nanowire-based nanocomposites for thermal and solar energy applications.
PhD4 - Inverse design for solar energy management: Photovoltaic and low thermal IR emissivity.
PhD5 - Integrating criticality and circularity assessment into the Life Cycle Analysis used for developing sustainable Materials-by-Design for renewable energy.
PhD6 - Acid stable oxide electrocatalysts with tunable electronic structure for water splitting (production of green H2)
PhD7 - Advanced strategies for the synthesis of carbonitride MXenes for electrochemical storage and photovoltaics
PhD8 - Sustainable absorbers and electrode materials for photo-supercapacitors (PSCs-SCs).
PhD9 - On-the-fly machine learning for electrochemical conversion and storage.
PhD10 - Using artificial intelligence in Life Cycle Analysis to predict the results for facilitating the development of sustainable Materials-by-Design for renewable energy
PhD11 - Photonic nano-structuring for solar energy harvesting.
PhD12 - New heterostructures for self-powered UV photodetection and power electronics
PhD13 - Combinatorial optimization of 3D nanostructured piezoelectric harvesters for Internet of Things (IoT).
PhD14 - Active learning for nanostructured materials for energy harvesting
PhD15 - Development of a design-oriented upscaling method for more sustainable substitution materials used in energy technologies.