Fabrication of diodes rectifiers based on organic materials/liquid crystals for energy harvesting applications The UDSMM laboratory (Dynamics and Structure of Molecular Materials Unit) is a research unit of the Littoral Côte d’Opale University (ULCO), focusing on the study and development of functional materials, particularly for energy-related applications. The SMAEO (Systèmes Moléculaires pour Applications Electroniques et… Read More »DIS-MOLARE
Development and Modeling of Low-Cost Tandem Solar Cells ofthe Perovskite/Silicon Type The Laboratory of Innovative Technologies “LTI” through its MIM team is involved in the field of energy, the environment and ecological transition through the development of new architectures or even new materials or new materials or new concepts of photovoltaic solar cells. As part… Read More »EMCST-PéroSi
Studies and realizations of inverted solar cells based on geopolymer substrates The Laboratory of Innovative Technologies “LTI” through its MIM team is involved in the field of energy, the environment and ecological transition through the development of new architectures or even new materials or new concepts of photovoltaic solar cells. As part of the A2U,… Read More »GO-HPV
Hydrogen Fuel Generation using Perovskite Electrodes as Photoanodes The GREEEN project aims to develop technologies enabling a water-splitting system to produce green hydrogen utilizing solar energy. By surpassing the band gap limitation of current systems based on semiconductors, we propose to develop photoanodes made of oxide perovskites. These materials benefit from both their capability to… Read More »GREEEN
Study of the optical and photoelectro-catalytic properties of MoS2 for hydrogen production Faced with the dual economic and environmental constraints linked to the growth in energy demands, it is necessary to develop new sustainable energy sources with less impact on the environment. The conversion of solar energy into an energy vector such as hydrogen H2,… Read More »H-PEC
Piezoelectric oxides for energy recovery and conversion The development of connected objects (Internet of Things) will require the development of wireless sensors that will enable smart monitoring applications in the industrial sectors of transport, buildings, health and environment. However, the batteries used to power these sensors limit their lifespan and require intervention to replace them… Read More »OPIACE
Towards the use of Halogenated Perovskite-type materials stable in an aqueous environment as photoanodes for biomass-fuelled cells To meet the growing demand for energy, the various issues linked to its supply and finally the dependence on critical materials, it is needed to open the way towards new economically and ecologically innovative avenues for the conversion… Read More »PASTIS
Time-of-flight method for determining charge carrier mobility in photo-active thin films The Poltergeist project concerns the study of photoactive materials based on lanthanide ditita,ates (Ln2Ti2O7 with Ln=La or Nd) having photocatalytic properties under UV excitation. The objective of this work is to study the photogeneration and mobility of charge carriers within these materials. Firstly, a… Read More »POLTERGEIST
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