Επιτεύγματα του ΙΤΕ/ΙΕΧΜΗ
Ερευνητικό Πεδίο: Ενέργεια / Περιβάλλον
Research fields categories
When you hear the following letters, it means the information is related to a specific research field, as follows:
N is for Nanotechnology / Advanced materials
E is for Energy / Environment
B is for Biosciences / Biotechnology
A is for All research fields
Development of SMARTAQM, a smart air quality monitoring (using low-cost sensors) and forecasting system for European urban areas.
The system has been developed in collaboration with the University...
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Development of modified State of the Art (SoA) electro-catalysts for Solid Oxide (ceramic) high temperature fuel and electrolysis cells/stacks
Developed new electro-catalysts with tailored physicochemical properties for improved performance/resistance...
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Development of processes for the creation of value from biomass and wastes via biocatalysts and application for household food wastes at real scale
Sustainable processes have been developed for the valorization of residual...
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Advanced PEMFC electrocatalysts and electrodes
Anode: Extended and Stable Electrochemical Interface through uniform proton conductor...
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Supported ionic liquid membranes with exceptional selectivity and permeability for dehumidification applications
Synthesis of a new ionic liquid family was achieved. The...
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Development of the first atmospheric simulation chamber (FORTH-SC) in Greece (and Eastern Europe) for the simulation of atmospheric chemical processes
This infrastructure that now includes a mobile set of chambers...
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Development of catalysts for treatment of gaseous emissions from formaldehyde plants
Stability of Au-based monolithic catalyst in the oxidation of wet...
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Cold Plasma as a Multifunctional Technology
Achieved the complete degradation of various contaminants (dyes, antibiotics, etc.)...
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Development and optimization of integrated methodologies for decentralized household wastewater management with zero environmental and energy footprint and validation at real scale
A methodology for cost efficient and environmental friendly management of...
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Development of efficient catalysts for transformation of residual fatty materials to green diesel
Various Ni based catalysts have been developed and proved extremely...
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Laser assisted transformation of various precursors to high-quality graphene-like powders for energy storage applications
Development of a low-cost and environmental friendly (under ambient conditions)...
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