Catalytic Processes and Materials for Sustainable Development - CaMat

Reference of the Group:

GIUV2019-461

 
Description of research activity:

Our research aims to generate applied knowledge in the areas of organic chemistry, catalysis and materials science. We seek to generate scientific knowledge through originality and multidisciplinarity. As specialists in Organic Chemistry we aim to bring our vision to the creation of molecular complexity, all geared towards sustainability and efficiency in coherence with sustainable development goals. Specifically, our study focuses on: The design of new functional materials and the development of alternative applications in catalysis and energy. The use of MOF/COV-type systems that can generate high-density functional interfaces resistant to extreme environments. The development of new synthetic pathways for obtaining molecular complexity through processes in line with green chemistry. The use of hydrogen self-transfer processes to activate diols and generate new structures. The development of new structures for photovoltaic systems. The development of original methodologies to access polyaromatic compounds from simple structures and with catalysis.

 
Web:

https://www.uv.es/uvweb/universidad/es/ficha-persona-1285950309813.html?p2=rabaga2

 
Scientific-technical goals:
  • Desarrollo de contribuciones de impacto que puedan ser relevantes tanto a nivel academico como industrial para generar sinergias entre ambas realidades cientificas
  • Desarrollo de Nuevos compuestos heterociclicos nitrogenados mediante reacciones verdes para la obtencion de nuevos farmacos y sensores.
  • Desarrollo de nuevas rutas sinteticas basadas en la reutilizacion de productos simples y abundantes como el etilenglicol para revalorizar el mismo y demostrar su aplicabilidad como sinton en quimica organica.
  • Desarrollo de nuevos materiales resistentes para aplicaciones de energia, biomedicina y catalisis
 
Research lines:
  • Design of new functional materials for applications in catalysis and energy.Preparation of macroscopic and microscopic nanoporous materials for the development of energy sources, catalyst or nano-container sources. This line of research aims to propose alternative applications of well-established materials in completely different fields, innovating in the application but benefiting from the existing know-how. We focus on post-synthesis surface modifications, filling, and compound (antibiotic) release.
  • Development of new synthetic routes to obtain molecular complexity through processes consistent with green chemistry..Development of new hydrogen autotransfer processes for the generation of molecular complexity with the aim of preparing nitrogenous aromàtic heterocyclic compounds. Applications as sensors and drugs.
  • Development of new structures for photovoltaic systems.Development of polyaromatic structures through green processes from diols through dehydrogenative condensation reactions, with the aim of obtaining fluorescent nitrogenated polyaromatic benzocondensated systems with basic nitrogens (pyridine or quinoline) for the modification of their electronic properties through alkylation reactions.
 
Group members:
Name Nature of participation Entity Description
RAFAEL BALLESTEROS GARRIDODirectorUniversitat de València
Research team
JORGE ESCORIHUELA FUENTESCollaboratorUniversitat de València
 
CNAE:
  • -
  • -
 
Associated structure:
  • Organic Chemistry
 
Keywords:
  • MOF; COF
  • Autotransferencia de hidrogeno
  • Poliaromáticos, heterociclos, fluorescencia