Person: López Duarte, Ismael
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First Name
Ismael
Last Name
López Duarte
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Farmacia
Department
Química en Ciencias Farmacéuticas
Area
Química Física
Identifiers
7 results
Search Results
Now showing 1 - 7 of 7
Item Novel phthalocyanine-based stopcock for zeolite L(Chemical Communications , 2008) Dieu, Le-Quyenh; Devaux, André ; López Duarte, Ismael; Martínez Díaz, María Victoria ; Brühwiler, Dominik; Calzaferri, Gion ; Torres Cebada, TomásWe report the first phthalocyanine-based stopcock for selective adsorption to the channel entrances of zeolite L and realisation of a new electronic dipole moment coupling situation.Item Functionalized Dendritic Oligothiophenes: Ruthenium Phthalocyanine Complexes and Their Application in Bulk Heterojunction Solar Cells(Journal of the American Chemical Society, 2009) Fischer, Markus K. R. ; López Duarte, Ismael; Wienk, Martijn M. ; Martínez Díaz, María Victoria ; Janssen, René A. J. ; Bäuerle, Peter ; Torres Cebada, TomásWithin the present work, two series of novel ruthenium(II) phthalocyanine (RuPc) complexes with one [RuPcCOPy-nT] or two [RuPc(Py-nT)2] dendritic oligothiophene (DOT) ligands in the axial positions are reported. The ability of RuII for axial coordination in RuPcs allowed the attachment of the Pc through the metal site to the DOT-ligands bearing pyridine at the core position of the dendrons. These extended pyridine functionalized conjugated DOT-ligands (Py-nT) were chosen to cover the spectral window between 380 and 550 nm, where the RuPc does not exhibit a strong absorption, in order to improve the light-absorption of these complexes and hence enhance the efficiency of the corresponding solar cells. Good efficiencies of up to 1.6% have been achieved when blended together with a fullerene acceptor in solution-processed photovoltaic devices, providing by far the best phthalocyanine-based bulk heterojunction solar cells reported to-date.Item Catalysis of Recombination and Its Limitation on Open Circuit Voltage for Dye Sensitized Photovoltaic Cells Using Phthalocyanine Dyes(Journal of the American Chemical Society, 2008) O'Regan, Brian C.; López Duarte, Ismael; Martínez Díaz, María Victoria; Forneli Rubio, María Ámparo; Albero Sancho, Josep; Morandeira Ramírez, Ana; Palomares Gil, Emilio; Torres Cebada, Tomás; Durrant, James RobertIn order to increase the energy efficiency of dye-sensitized solar cells beyond 10%, an improved dye needs to be developed with greater light absorption in the red and near-infrared. Many dyes have been tested for this purpose; however, no dye with significant absorption beyond 750 nm has functioned properly. We have examined a series of ruthenium phthalocyanines, a dye class with large and tunable absorption in the red. For these dyes we observe a large reduction in the output voltage of the cells relative to the benchmark dye (N719). By examination of photovoltage transients and charge density measurements, we demonstrate that this reduction in voltage is caused by a 100-fold increase in the rate constant for recombination (iodine reduction) at the TiO2/electrolyte interface. N719, however, does not seem to catalyze this reaction. By examination of the literature, we propose that catalysis of the recombination reaction may be occurring for many other classes of potentially useful dyes including porphyrins, coumarins, perylenes, cyanines, merocyanines, and azulene. This widespread ability of the dye to catalyze recombination has not been appreciated before. This finding has important implications for future work to improve the red response of dye sensitized photovoltaics.Item On the Significance of the Anchoring Group in the Design of Antenna Materials Based on Phthalocyanine Stopcocks and Zeolite L(Chemistry-A European Journal, 2010) López Duarte, Ismael; Le-Quyenh, Dieu; Dolamic, Igor ; Martínez Díaz, María Victoria ; Torres Cebada, Tomás ; Calzaferri, Gion ; Brühwiler, DominikThe synthesis of stopcocks based on zinc phthalocyanine for selective adsorption at the channel entrances of zeolite L is reported. The introduction of either an inert SiMe3 moiety, an imidazolium cation or a reactive isothiocyanate (NCS) group allows attachment to the channel entrances of zeolite L through van der Waals interactions, electrostatic interactions, or covalent binding, respectively. Stopcocks that rely on van-der-Waals-driven adsorption require careful selection of the solvent used for the deposition onto the zeolite surface to avoid a nonspecific distribution of the molecules. Regarding the design of photonic antenna systems, a stopcock with a cationic tail was found to be the most convenient, based on the observation that efficient energy transfer from molecules located in the zeolite nanochannels is more readily obtained than in the other cases.Item Molecular Engineering of Zinc Phthalocyanines with Phosphinic Acid Anchoring Groups(Angewandte Chemie Int. Ed., 2011) López Duarte, Ismael; Wang, Mingkui ; Humphry‐Baker, Robin ; Ince, Mine ; Martínez Díaz, María Victoria ; Nazeeruddin, Mohammad Khaja; Torres Cebada, Tomás ; Grätzel, MichaelItem A squaraine–phthalocyanine ensemble: towards molecular panchromatic sensitizers in solar cells(Chemical Communications, 2009) Silvestri, Fabio; López Duarte, Ismael; Seitz, Wolfgang; Beverina, Luca; Martínez Díaz, María Victoria; Marks, Tobin J.; Guldi, Dirk M.; Pagani, Giorgio A.; Torres Cebada, TomásA supramolecular phthalocyanine–squaraine ensemble which exhibits a large coverage of the solar spectrum from 850 to 250 nm has been prepared and characterized both photophysically and in bulk heterojunction solar cells.Item Slow Electron Injection on Ru−Phthalocyanine Sensitized TiO2(Journal of the American Chemical Society, 2007) Morandeira Ramírez, Ana ; López Duarte, Ismael; Martínez Díaz, María Victoria; O'Regan, Brian ; Shuttle, Chris; Haji-Zainulabidin, Nor A. ; Torres Cebada, Tomás ; Palomares Gil, Emilio ; Durrant, James RobertPhotoinduced electron injection in dye sensitized TiO2 is a critical step in the function of dye sensitized solar cells. High electron injection quantum yields are a requirement to obtain efficient devices. While high electron injection quantum yields are usually linked to ultrafast electron-transfer dynamics (in the fs−ps timescales), the latter are not a requirement. We present here a system, Ru-phthalocyanine sensitized TiO2, where slow electron injection (kinj ≈ 450 ns-1) and efficient electron injection are compatible owing to the long lifetime of the injecting state, the Ru-phthalocyanine triplet state. Ru-phthalocyanine dyes are attractive sensitizers because they absorb strongly in the red and their axial ligands hinder the formation of aggregates.