Our expertise lies in advanced material development, catalytic processes, and reactor optimization to support the goals of the Water4All mission. We focus on the preparation and characterization of nano- and macro-structured materials for critical applications in chemical and environmental fields. With a strong emphasis on heterogeneous catalysis, water treatment, and water reuse, as well as the elimination of micropollutants, our work leverages advanced oxidation technologies powered by renewable sources such as solar light. Additionally, we bring expertise in light-driven technologies and the design of photo(electro)chemical devices, enabling sustainable production of fuels and chemicals while advancing water treatment and sustainable energy solutions. We also specialize in the optimization of meso-oscillatory flow reactors for multiphase systems, which open new possibilities for optimized water treatment and multiphase applications.
Topic 1. Enhancement of water circularity in industries
Topic 2. Urban water circularity
Topic 3. Resource recovery and valorization
Topic 4. Economic, environmental and social implications of water reuse and recovered products
This project aims to advance scientific discovery and technological innovation through the development of highly efficient and cost-effective catalysts. By pioneering an advanced light-induced oscillatory flow reactor system, we seek to achieve dual breakthroughs in sustainable hydrogen production and the oxidation of organic pollutants, thereby improving water quality. This approach seeks to set new standards in energy and environmental sustainability.
water treatment, ecotoxicity, sustainable hydrogen, energy recovery, decentralized systems, circular economy