Person: Rodríguez Agarrabeitia, Antonia
Loading...
First Name
Antonia
Last Name
Rodríguez Agarrabeitia
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Óptica y Optometría
Department
Química Orgánica
Area
Química Orgánica
Identifiers
5 results
Search Results
Now showing 1 - 5 of 5
Item Controlling Vilsmeier-Haack processes in meso-methylBODIPYs: A new way to modulate finely photophysical properties in boron dipyrromethenes(Dyes and Pigments, 2017) Palao Utiel, Eduardo; Montalvillo Jiménez, Laura; Esnal Martínez, Ixone; Prieto Montero, Ruth; Rodríguez Agarrabeitia, Antonia; García Moreno, Inmaculada; Bañuelos Prieto, Jorge; López Arbeloa, Íñigo María; Moya Cerero, Santiago De La; Ortiz García, María JosefaIn the herein work we report the fine and selective control of competitive processes when submitting meso-methylBODIPYs to Vilsmeier-Haack reaction conditions. These competitive processes generate BODIPYs with opposed photophysical properties, from highly fluorescent dyes enabling laser emission, to non-fluorescent singlet-oxygen photosensitizers. The synthetic control is exerted on the basis of the structure of the starting BODIPY, as well as the electrophilic character (hard or soft) of the formylating reagent.Item Tailoring the Molecular Skeleton of Aza-BODIPYs to Design Photostable Red-Light-Emitting Laser Dyes(ChemPhotoChem, 2018) Prieto Castañeda, Alejandro; Avellanal Zaballa, Edurne; Gartzia Rivero, Leire; Cerdán Pedraza, Luis; Rodríguez Agarrabeitia, Antonia; García Moreno, Inmaculada; Bañuelos Prieto, Jorge; Ortiz García, María JosefaIn this article the design and characterization of a set of novel red‐light‐emitting laser aza‐BODIPY dyes is reported. The applied synthetic method allows an exhaustive and versatile functionalization of both the dipyrrin core and the boron bridge. From the analysis of the photophysical and laser signatures, we determine the suitable modifications of the chromophoric backbone necessary to modulate the emission spectral region, efficiency and photostability under a strong irradiation regime. These dyes are endowed with efficient fluorescence and laser emission, and are particularly outstanding in terms of their high photostability, a key parameter to guarantee long‐lasting emission in any (bio)technological application. The herein‐reported results support, for the first time, the viability of aza‐BODIPYs as tunable red laser dyes. In fact, the laser performances of some of the tested aza‐BODIPYs surpass those of commercially available laser dyes in the same spectral region.Item Rational molecular design enhancing the photonic performance of red-emitting perylene bisimide dyes(Physical Chemistry Chemical Physics, 2017) Avellanal Zaballa, Edurne; Durán Sampedro, Gonzalo; Prieto Castañeda, Alejandro; Rodríguez Agarrabeitia, Antonia; García Moreno, Inmaculada; López Arbeloa, Íñigo María; Bañuelos Prieto, Jorge; Ortiz García, María JosefaWe report the synthesis of novel multichromophoric organic architectures, where perylene red is decorated with BODIPY and/or hydroxycoumarin dyes acting as light harvesters and energy donors. The computationally-aided photophysical study of these molecular assemblies reveals a broadband absorption which, regardless of the excitation wavelength, leads solely to a bright red-edge emission from perylene bisimide after efficient intramolecular energy transfer hops. The increase of the absorbance of these molecular antennas at key pumping wavelengths enhances the laser action of the commercial perylene red. The herein applied strategy based on energy transfer dye lasers should boost the use of perylene-based dyes as active media for red-emitting lasers.Item FormylBODIPYs by PCC-Promoted Selective Oxidation of α-MethylBODIPYs. Synthetic Versatility and Applications(Organic Letters, 2019) Ramos Torres, Ágata; Avellanal Zaballa, Edurne; Prieto Castañeda, Alejandro; García Garrido, Fernando; Bañuelos Prieto, Jorge; Rodríguez Agarrabeitia, Antonia; Ortiz García, María JosefaAn efficient synthesis of formylBODIPYs has been established based on an oxidation with PCC of 3-methylBODIPYs. It has been demonstrated that this reagent can oxidize methyl groups at such position of the BODIPY core, regardless of its substitution pattern. Moreover, through this procedure it is possible to synthesize 8-aryl-3,5-diformylBODIPYs, which are otherwise difficult to obtain. These precursors have been functionalized to develop fluorescent sensors of amino acids or photosensitizers for singlet oxygen generation.Item A versatile fluorescent molecular probe endowed with singlet oxygen generation under white-light photosensitization(Dyes and Pigments, 2017) Durán Sampedro, Gonzalo; Epelde Elezcano, Nerea; Martínez Martínez, Virginia; Esnal Martínez, Ixone; Bañuelos Prieto, Jorge; García Moreno, Inmaculada; Rodríguez Agarrabeitia, Antonia; Moya Cerero, Santiago De La; Tabero Truchado, Andrea; Lázaro Carrillo, Ana; Villanueva Oroquieta, Ángeles; Ortiz García, María Josefa; López Arbeloa, Íñigo MaríaDespite fluorescent photodynamic therapy (fluorescent-PDT) dyes are promising theranostic agents, current approaches unfortunately involve crucial shortcomings (such as, narrow absorption bands, high cost, low bio-compatibility and specificity, low dual efficiency) making difficult their clinical translation. Particularly, efficient fluorescent-PDT agents triggered under white-light, with potential application in topic solar treatments, are scarce. Here, we describe the rational development of a novel fluorescent-PDT molecular biomaterial based on BODIPY building blocks able to sustain, simultaneously, synthetic accessibility, high fluorescence and phototoxicity within a broad spectral window, biocompatibility, including low dark toxicity and high cell permeability with selective accumulation in lysosomes and, what is more important, excellent efficient activity triggered under white light. These all-in-one combined properties make the new dye a valuable ground platform for the development of future smarter theranostic agents.