101 research outputs found
Bichromatic laser emission from dipyrromethene dyes incorporated into solid polymeric media
9 pages, 9 figures.Bichromatic laser emission from dipyrromethene-based solid-state dye lasers is reported. The dependence of this dual emission on different factors and its origin and causes are discussed in the light of different models proposed in the literature. Our experimental results indicate that the long-wavelength emission can be explained in terms of reabsorption/reemission effects and inhomogeneous broadening of the S0-S1 transition. The short-wavelength emission corresponds to the usual S0-S1 transition and dominates at low dye concentration.This work was supported by Project Nos. MAT2004-04643-C03-01 and MAT2004-04643-C03-02 of the Spanish CICYT. One of the authors (M.Á.) thanks Ministerio de Ciencia y Tecnología (MCT) for a predoctoral grant. Another author (M.L.) thanks Comunidad Autónoma de Madrid for a postdoctoral grant and MCT for a Juan de la Cierva contract.Peer reviewe
8-PropargylaminoBODIPY: unprecedented blue-emitting pyrromethene dye. Synthesis, photophysics and laser properties
Highly emitting 8-propargylaminoBODIPY (8-PAB) 2 was
prepared in 94% yield. Unlike any other BODIPY structure
hitherto described in the literature, 2 displays efficient emission in
the blue region of the visible spectrum with a fluorescence
quantum yield up to 0.94 and high laser efficiency (35%) at
483 nm.Grants GTO-2007-C02-69094 (CONCyTEG) (Mexico),
MAT2007-65778-C02-01 and -02 of the Spanish MICINN
are gratefully acknowledged. V. Martin thanks CSIC for her
JAE-postdoctoral contract.Peer reviewe
Ready Access to Molecular Rotors Based on Boron Dipyrromethene Dyes-Coumarin Dyads Featuring Broadband Absorption
Herein we report on a straightforward access method for boron dipyrromethene dyes (BODIPYs)-coumarin hybrids linked through their respective 8- and 6- positions, with wide functionalization of the coumarin fragment, using salicylaldehyde as a versatile building block. The computationally-assisted photophysical study unveils broadband absorption upon proper functionalization of the coumarin, as well as the key role of the conformational freedom of the coumarin appended at the meso position of the BODIPY. Such free motion almost suppresses the fluorescence signal, but enables us to apply these dyads as molecular rotors to monitor the surrounding microviscosity.This research was funded by Spanish Ministerio de Economia y Competitividad (project MAT2017-83856-C3-3-P), Gobierno Vasco (project IT912-16), CONACyT (grants 253623, 123732) and Dirección de Apoyo a la Investigación (DAIP-UG CIIC318/2019)
Insight on tricalcium silicate hydration and dissolution mechanism from molecular simulations
Hydration of mineral surfaces, a critical process for many technological applications, encompasses multiple coupled chemical reactions and topological changes, challenging both experimental characterization and computational modeling. In this work, we used reactive force field simulations to understand the surface properties, hydration, and dissolution of a model mineral, tricalcium silicate. We show that the computed static quantities, i.e., surface energies and water adsorption energies, do not provide useful insight into predict mineral hydration because they do not account for major structural changes at the interface when dynamic effects are included. Upon hydration, hydrogen atoms from dissociated water molecules penetrate into the crystal, forming a disordered calcium silicate hydrate layer that is similar for most of the surfaces despite wide-ranging static properties. Furthermore, the dynamic picture of hydration reveals the hidden role of surface topology, which can lead to unexpected water tessellation that stabilizes the surface against dissolution. © 2015 American Chemical Society
Photophysical and laser emission studies of 8-polyphenylene-substituted BODIPY dyes in liquid solution and in solid polymeric matrices
In our search for efficient and photostable laser dyes, four new dyes with the basic structure of the
commercial BODIPY laser dye PM567, with either an 8-diphenylene or an 8-p-triphenylene group,
both substituted at the terminal polyphenylene position with an acetoxymethyl (dyes P2Ar1Ac and
P3Ar1Ac, respectively) or a methacryloyloxymethyl group (dyes P2Ar1MA and P3Ar1MA,
respectively), have been synthesized. The photophysical and lasing properties of the dyes have been
studied both dissolved in liquid solvents (acetoxymethyl dyes) and incorporated into solid polymeric
matrices, in the latter case as solutions (acetoxymethyl dyes) or as copolymers with methyl methacrylate
(methacryloyloxymethyl dyes). In liquid solution, the photophysics of P2Ar1Ac and P3Ar1Ac is
scarcely affected by the number (two or three) of p-phenylene units. Quantum mechanical calculations
reveal that the p-phenylene units in these dyes are twisted ca. 37◦ each other, an that the first
8-p-phenylene group stands nearly perpendicular to the aromatic BODIPY plane, resulting in electronic
decoupling of the two chromophores. P2Ar1Ac exhibits a somewhat lower photodegradation quantum
yield under UV and visible irradiation, if compared with P3Ar1Ac or with PM567, likely because of its
also lower rate constant for the reaction with in situ-generated singlet molecular oxygen. Both
acetoxymethyl dyes emit laser radiation in solution in all the solvents tried, under transversal pumping
at 532 nm. In ethyl acetate, with a dye concentration of 0.80 × 10−3 M, laser efficiencies as high as 80%
have been observed. When the 8-polyphenylene dyes were incorporated into solid poly(methyl
methacrylate) (PMMA) matrices, as solutions or as copolymers, the fluorescence emission increased
with respect to that of the parent PM567 dye dissolved in the same matrix, and lasing efficiencies in the
range 18–31% were obtained, with good photostability. The dye P2Ar1Ac dissolved in PMMA was
found to exhibit the best overall laser behavior, with a good balance between efficiency and
photostability.This work was supported by Project MAT2004-04643-C03-01 of
the Spanish CICYT. M. Liras thanks Comunidad Aut´onoma
de Madrid for a predoctoral scholarship and Ministerio de
Educaci´on y Ciencia for a Juan de la Cierva contract.M. A´ lvarez
thanks Ministerio de Educaci´on y Ciencia for a predoctoral scholarship.
The 8-polyphenylene-substituted boron-dipyrromethene
dyes described in this paper and their utilization in liquid and solidstate
dye lasers are covered by Spanish PatentNo. P200701763 filed
on 25 June 2007.Peer reviewe
An asymmetric BODIPY triad with panchromatic absorption for high-performance red-edge laser emission
© The Royal Society of Chemistry 2015. A rational design of an unprecedented asymmetric cassette triad based entirely on BODIPY chromophores allows efficient light harvesting over the UV-vis spectral region, leading to a bright and stable red-edge laser emission via efficient energy-transfer processes.Peer Reviewe
One-Directional Antenna Systems: Energy Transfer from Monomers to JAggregates within 1D Nanoporous Aluminophosphates
A cyanine dye (PIC) was occluded into two 1D-nanopoporus Mg-containing aluminophosphates with different pore size (MgAPO-5 and MgAPO-36 with AFI and ATS zeolitic structure types, with cylindrical channels of 7.3 Å diameter and elliptical channels of 6.7 Å × 7.5 Å, respectively) by crystallization inclusion method. Different J-aggregates are photophysically characterized as a consequence of the different pore size of the MgAPO frameworks, with emission bands at 565 nm and at 610 nm in MgAPO-5 and MgAPO-36, respectively. Computational results indicate a more linear geometry of the J-aggregates inside the nanochannels of the MgAPO-36 sample than those in MgAPO-5, which is as a consequence of the more constrained environment in the former. For the same reason, the fluorescence of the PIC monomers at 550 nm is also activated within the MgAPO-36 channels. Owing to the strategic distribution of the fluorescent PIC species in MgAPO-36 crystals (monomers at one edge and J-aggregates with intriguing emission properties at the other edge) an efficient and one-directional antenna system is obtained. The unidirectional energy transfer process from monomers to J-aggregates is demonstrated by remote excitation experiments along tens of microns of distance.Financial support from Gobierno Vasco (IT912-16) and Ministerio de Economía y Competitividad “MINECO” (through Projects MAT2014-51937-C3-3-P, MAT2016-77496-R and MAT-2015-65767-P) is acknowledged. R.S.L. and V.M.M. acknowledge niversidad del PaísVasco (UPV-EHU) for a postdoctoral fellowship and MINECO for a “Ramón y Cajal” Contract RYC-2011-09505), respectively. H.U. gratefully acknowledges the financial support of the European Research Council (#280064), the FWO (G056314N, G0B5514N, G081916N), and JSPS KAKENHI (JP17H03003, JP17H05244, JP17H05458). Centro Técnico de Informática (CSIC) is acknowledged for running the calculations and Accelrys for providing the computational softwar
Unprecedented J-Aggregated Dyes in Pure Organic Solvents
We describe the design and synthesis of the first organic dyes enabling
spontaneous formation of stable J-aggregates in common organic solvents without additives.
The new dyes are O-BODIPYs with a B-spiranic 4,4-diacyloxyl substitution pattern. Key to
the effectiveness of the J-aggregation process is the high conformational rigidity of the Bspiranic
molecular design as well as the orthogonal disposition of the B-diacyloxyl
substituent and the meso-aryl group with respect to the mean plane of the
borodiazaindacene. Atomistic simulations, both in vacuum and in a solvent cage, support
the dynamics of the J-aggregation process as well as its dependence on the alkylation
pattern of the BODIPY chromophore. A detailed analysis of the photophysical and laser
properties of the new dyes provides convincing evidence for the unambiguous assignment
of these J-aggregates and their dependence on the environmental conditions.We gratefully acknowledge financial support by the Spanish
Ministerio de Economia y Competitividad (projects MAT2014-51937-C3-1-P, MAT2014-
51937-C3-2-P, MAT2014-51937-C3-3-P, and MAT2015-68837-REDT). I. E. thanks the
Gobierno Vasco (IT339-10) for a predoctoral contract. H. M. acknowledges the Spanish Ministerio de Economia y Competitividad for a Juan de la Cierva postdoctoral contract.
The authors thank SGIker of UPV/EHU for technical and human support with the X-ray
diffraction measurements and computational calculations, which were carried out in the “arina” informatic cluster. We also thank Diego Plaza Lozano for preliminary synthetic studies.Peer reviewe
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