GIUV2019-465
Development of 2D and 3D porous materials with applications in catalysis, magnetism and environmental remediation. In particular, the group works with a type of materials called porous coordination polymers or metal-organic frameworks (MOFs). To this end, we use the tools offered by coordination chemistry to synthesise materials with known architectures, high structural stability and the possibility of functionalising the pores of the materials "à la carte" using the "complex as ligand" technique. This allows the effective use of these materials both for the selective capture of pollutants and for the preparation of subnanometric metal clusters for application in catalysis.
- Sintesis de polimeros de coordinacion porosos (MOFs) de alta estabilidad, utilizando metodos de ensamblaje recionales con ligandos oxamato y oxamidato.
- Sintesis de compuestos funcionales en MOFs con aplicaciones cataliticas y magneticas. Esto incluye tanto la encapsulacion de compuestos de coordinacion como de clusteres metalicos subnanometricos.
- Estudio de las interacciones huesped-anfitrion en estos sistemas y su aplicacion en catalisis
- Estudio de las propiedades de captura de contaminantes en base a su alta estabilidad, resistencia en agua y funcionalidades
- Porous coordination polymers.Synthesis of porous coordination polymers (PCPs or MOFs). Host-guest chemistry of MOFs. Application of MOFs in catalysis. Application of MOFs in environmental remediation.
| Name | Nature of participation | Entity | Description |
|---|---|---|---|
| EMILIO JOSE PARDO MARIN | Director | Universitat de València | |
| Research team | |||
| JESUS FERRANDO SORIA | Member | Universitat de València | |
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- Institute of Molecular Science (ICMOL)
- MOFs, catálisis, química huesped-anfitrión, remediación ambiental
