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Título
Síntesis y estudio de las propiedades de sistemas poliheterocíclicos conjugados y BODIPYs α-sustituidos
Autor
Fecha de publicación
2022
Fecha de lectura/defensa
2022-04-29
DOI
10.36443/10259/7800
Zusammenfassung
La relevancia de los compuestos heterocíclicos en áreas como la química orgánica o biológica
hace que su estudio constituya un campo muy activo dentro de la química actual. En este
contexto, el eje central de la presente Tesis Doctoral ha sido el estudio de derivados
poliheterocíclicos conjugados, desde su síntesis al estudio de sus propiedades y su aplicación en
distintas áreas. La tesis se ha estructurado en tres capítulos:
En el primero, “Roseophilin derivatives”, se detalla la síntesis de nuevos compuestos, de tipo
tambjamina y prodigiosina, basados en el núcleo del producto natural roseofilina. Estudio que
ha permitido estudiar por primera vez la actividad anionofórica de sistemas con núcleo pirrolilfurano.
En el segundo capítulo, denominado “Compuestos tetra(hetero)arílicos”, se han puesto a punto
nuevas rutas sintéticas, basadas en la autocondensación de aldehídos pirrólicos, para la
obtención de dipirrometenos simétricos α-sustituidos. Este capítulo se completa con el estudio
de las propiedades fotofísicas y anionofóricas de estos sistemas, lo que ha permitido determinar
la influencia de la sustitución en dichas propiedades.
El tercer capítulo, “Derivados BODIPY”, se centra en el desarrollo de nuevas metodologías
sintéticas para la obtención de meso-H BODIPYs 3,5-sustituidos. Además, para los BODIPYs
sintetizados se han estudiado sus propiedades fotofísicas y espectroelectroquímicas,
determinando especialmente cómo influyen los efectos electrónicos en ellas. Finalmente, se ha
llevado a cabo el estudio de autoensamblaje supramolecular de BODIPYs con geometría angular,
tratando de elucidar el mecanismo de agregación de estos sistemas y sus propiedades. Heterocyclic compounds represent key players in modern chemistry because of their
relevance in many areas of organic and biological chemistry. This PhD dissertation is focused on
the development of different synthetic methodologies to obtain conjugated polyheterocyclic
derivatives, which contain pyrrole and furan units in their structures, as well as studying their
properties and applications in different areas, such as the anions transport across lipid
membranes or the preparation of fluorophores.
Taking the natural product rosephilin as an inspiration, the first chapter of the dissertation
details the results in the synthesis of compounds by mimicking this type of structure, with the
final aim of evaluating the anionophore activity of these products in lipid vesicle models. Thus,
it was determined the influence of the introduction of several heterocyclic rings at different
molecular positions on their anionophoric activity. Additionally, these studies were extended to
other compounds inspired by the structure of other alkaloids such as the tambjamines.
Chapters two and three of this dissertation have been focused on the synthesis and study of
different -functionalized dipyrromethenic compounds. Dipyrromethenes are complex
chromophoric systems with interesting properties and precursors of BODIPY-type fluorophores
(4,4-difluoro-4-bora-3a, 4a-diaza-s-indacenes).
Thereby, in the second chapter, two synthetic routes were designed, based on the selfcondensation of pyrrolic aldehydes, to obtain -substituted symmetric dipyrromethenes. The
products obtained proved to have good photophysical properties, tunable through structural
variations of the compounds, modifying their protonation state and by the effect of the
concentration or the solvent. In addition, the anionophore activity of some of them was also
demonstrated.
On the other hand, the third chapter of the report has been oriented to the development of
new methodologies for obtaining 3,5-substituted meso-H BODIPYs. First, the complexation
reaction of -prefunctionalized dipyrromethenes was studied to obtain BODIPYs with groups of
different nature in the C3/C5 positions. In addition, the scope of cross-coupling and nucleophilic
aromatic substitution (SNAr) reactions was explored as strategies for the post-functionalization
of BODIPYs through the derivatization of a 3,5-dibromo BODIPY. Thus, the use of cross-coupling
reactions allowed to maximize the overall yield of the corresponding BODIPYs with respect to
the prefunctionalization methodologies. On the other hand, the combination of SNAr with
copper(I)-catalyzed azide alkyne cycloaddition (CuAAC) reactions facilitated the access to
different regioisomers of symmetric click-BODIPYs. Likewise, by using amines as nucleophiles,
asymmetric amino-BODIPYs, precursors of more complex products such as tambjamineBODIPYs, were isolated too.
Some of the most important properties of synthesized BODIPYs were also explored in this
chapter. In addition to the photophysical properties, similar to those that characterizing this
type of fluorophores; the spectroelectrochemical properties of two -aryl BODIPYs were also
studied, study that revealed their redox activity and the differences due to the different
electronic nature of the substituents on the fluorophores. Finally, the application of some of the
BODIPY derivatives as anion transporters was explored and, besides, derivatives of this type
were prepared and studied considering a special design focused on the construction of
supramolecular polymers through supramolecular self-assembly processes.
Palabras clave
Dipirrometeno
BODIPY
Roseofilina
Sistema poliheterocíclico
Reacción de autocondensación
Dipyrromethene
Roseophilin
Poliheterocyclic system
Self-condensation reaction
Materia
Química orgánica
Chemistry, Organic
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