New sustainable method for producing metallic nanoparticles with superior stability and high conductivity. Highly useful in conductive inks for electronic printing, radio frequency antennas, catalysts, conductive paints or coatings.
An electronic component that alternates between as a resistor and a diode, retaining memory of its state without energy consumption. This technology enables the creation of faster and more efficient neuromorphic computing systems.
High grammage technical paper designed for demanding mechanical printing processes such as intaglio, dry stamping, or relief printing Made from plant fibers and reinforced with natural residues and additives, it offers durability, print quality and sustainability.
Manufacturing procedure for suspended gauges for high-precision and non-invasive optical calibration
A Pseudomonas putida strain engineered through synthetic biology capable of producing 5-carboxymethylpyridine-2-carboxylic acid (2,5-CPDCA) from lignin-derived monomers. 2,5-CPDCA is an analog of homoterephthalic acid, used for synthesizing plastic polyesters.
Composite material made of carbon microspheres highly doped with quaternary nitrogen, designed as an electrocatalyst for the oxygen reduction reaction in fuel cells and metal–air batteries. It combines high electrochemical efficiency with sustainability by eliminating the use of noble metals.
Novel and sustainable photothermal catalytic method for synthesizing γ-valerolactone (GV with applications as biofuel, green solvent for the pharma industry, precursor for polymers and perfumery. The process utilizes biomass feedstocks and new scalable nickel-based catalysts that significantly reduce the energy requirements and avoiding H2 gas.
Modified and optimized procedure for measuring thermal conductivity using LFA (Laser Flash Analysis). Includes software that enables precise measurement of thermal conductivity in ultrathin material layers (<0.1 mm)
Innovative device incorporating a nanostructured composite material in one of its electrodes. This design enables up to a fivefold increase in power density compared to commonly used materials.
High-sensitivity standardized system for triboelectric characterization of materials. It detects minimal structural variations, and its easy integration into production lines makes it a strategic tool for Industry 4.0.