Síntesis, estructura y propiedades electrónicas de nuevos sistemas push-pull basados en complejos de metales de transición
- CHU ZHU, GONG MING
- Israel Fernández López Director/a
- Miguel Ángel Sierra Rodríguez Director/a
Universidad de defensa: Universidad Complutense de Madrid
Fecha de defensa: 23 de febrero de 2016
- Roberto José Martínez Alvarez Presidente/a
- Luis Sánchez Martín Secretario/a
- Miquel Solà Puig Vocal
- Pedro Molina Buendía Vocal
- Julia Perez-Prieto Vocal
Tipo: Tesis
Resumen
The present work is aimed at designing novel organometallic push-pull species. To this end, different transition metal complexes, mainly based on Fischer type carbene complexes, have been synthesized and fully characterized. Their associated photophysical properties have been analysed in detail by means of experimental and computational tools. In this regard, A-Pi-D-Pi-A push-pull systems (where A = Fischer carbene complex) with enhanced Pi-conjugation have been prepared (Chapter 1). In addition, Fischer carbene complexes have been attached to the BODIPY core (Chapter 2) or to its periphery (Chapter 3) to modulate the photophysical properties of the fluorophore. Novel transition metal-BODIPY complexes having tunable emissive properties were prepared through N-directed C-H activation/cyclometallation reaction (Chapter 4). Finally, a systematic investigation of the influence of the bulkiness of the ligands on the Pd-catalyzed self-dimerization reaction of alkoxychromium(0) (Fischer) carbene complexes has been carried out (Chapter 5). Chapter 1. Chapter 1 describes the preparation of novel Pi-extended alkoxy Fischer bis(carbene) complexes A-Pi-D-Pi-A by the reaction of the corresponding dialdehydes with alkoxychromium(0) and alkoxytungsten(0) carbene complexes following the standard conditions reported by Aumann (Scheme 1)...