General description
The REDOLí research group seeks to improve society through multidisciplinary, collaborative and applied research in the areas of recognition, sustainability and innovation
LINES OF WORK
Recognition
Sensors: Development of sensors based on changes in optical or electrochemical properties, both from molecules and materials or hybrid systems
Regulation of protein activity: Development of molecules and materials with the ability to modulate (activate or inhibit) the activity of proteins
Sustainability
Development of strategies to achieve more sustainable processes and products, particularly in agriculture and the chemical, materials and food industries. It includes aspects such as:
– bioeconomy
– circular economy
– climate change
– life cycle analysis
Innovation
Support to companies in innovation processes, identification of knowledge, transformation of knowledge into products, development of protection strategies and projects
PROJECTS IN PROGRESS
Development of polyphenol oxidase inhibitors
Development of meso porous silica as modulators of the digestive lipase
Closing the technical circle: advances in metal recovery from waste
Implementation of Just in Time Teaching in the Laboratory of Inorganic Chemistry of the Degree in Chemistry
Development of chemical communication networks based on gated nanoparticles and cells for diagnosis and therapeutic purposes
PAST PROJECTS
NANODIGEST: Evaluation of the potential of the use of nanomaterials for the treatment of digestive pathologies derived from enzymatic activity.
SMART-BIOMULCH: Assessment of using bio-based smart plastics to increase soil resilience and sustainability in agriculture
RELEVANT PUBLICATIONS
A regenerative chemodosimeter based on metal-induced dye formation for the highly selective and sensitive optical determination of Hg2+ ions. Angewandte Chemie, Int. Ed. 300 cites
Squaraines as fluoro-chromogenic probes for thiol-containing compounds and their application to the detection of biorelevant thiols. Journal of the American Chemical Society. 240 cites
Finely Tuned Temperature-Controlled Cargo Release Using Paraffin-Capped Mesoporous Silica Nanoparticles. Angewandte Chemie, Int. Ed. 83 cites
ACADEMIC OFFER
– Projects end of degree
– Collaboration scholarships
– External practices
– Master’s thesis
– PhD theses
CONTACT
redoli @ uv.es (without blanks)