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Synthesis, linear and nonlinear photophysical characterization of two symmetrical pyrene-terminated squaraine derivatives in solution
Title
Synthesis, linear and nonlinear photophysical characterization of two symmetrical pyrene-terminated squaraine derivatives in solution.
Creator
Ballestas Barrientos, Alfonso, Belfield, Kevin, Harper, James, Clausen, Christian, University of Central Florida
Abstract / Description
Two indole-based squaraine dyes bonded to two pyrenyl groups through vinyl- and ethynyl- linkers were synthesized with the aim of enhancing the intramolecular charge transfer interaction in addition to improving their optical properties. The absorption and emission properties of these derivatives were determined in order to gain an insight into the intensity of this type of interaction, their aggregation behavior and compare them with results obtained through quantum chemical calculations....
Show moreTwo indole-based squaraine dyes bonded to two pyrenyl groups through vinyl- and ethynyl- linkers were synthesized with the aim of enhancing the intramolecular charge transfer interaction in addition to improving their optical properties. The absorption and emission properties of these derivatives were determined in order to gain an insight into the intensity of this type of interaction, their aggregation behavior and compare them with results obtained through quantum chemical calculations. Both compounds presented high photochemical stability in THF, and the linear spectroscopic characterization revealed high extinction coefficients, large fluorescence quantum yields and relatively low tendency of forming excimers in several solvents. The nonlinear spectroscopic study revealed two-photon absorption cross section maxima greater than 10,000 GM (1 GM = 1 (&)#215; 10-50 cm4 s/photon), which are improved values in comparison with the indole-based squaraine core. The experimental results were compared with time-dependent DFT calculations. These observations propose a new trend in the formulation of highly absorbing organic molecules containing pyrenyl groups for the development of new materials with Organic Light-Emitting Diode (OLED) applications. Moreover, this work contributes to the study of intramolecular charge transfer interaction and its tailoring for the improvement of the linear and nonlinear optical properties.
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Date Issued
2015
Identifier
CFE0006024, ucf:50999
Format
Document (PDF)
PURL
http://purl.flvc.org/ucf/fd/CFE0006024
Aggregation of Squaraine Dye Derivatives in Solid State Spin-coated Thin Films
Title
Aggregation of Squaraine Dye Derivatives in Solid State Spin-coated Thin Films.
Creator
Daoudi, Mohammed, Belfield, Kevin, Miles, Delbert, Campiglia, Andres, Bhattacharya, Aniket, Rex, Matthew, University of Central Florida
Abstract / Description
Squaraine dyes have been the subject of intensive studies due their unusual electronic properties that make them good candidates for a wide range of applications in various technological fields. They are particularly promising in nonlinear optics, bioimaging for labeling and sensing of biomolecules, as sensitizers for solar energy harvesting in solar cells and organic photovoltaics, two-photon absorbing materials, near-infrared (NIR) emitting fluorescent probes, second harmonic generation...
Show moreSquaraine dyes have been the subject of intensive studies due their unusual electronic properties that make them good candidates for a wide range of applications in various technological fields. They are particularly promising in nonlinear optics, bioimaging for labeling and sensing of biomolecules, as sensitizers for solar energy harvesting in solar cells and organic photovoltaics, two-photon absorbing materials, near-infrared (NIR) emitting fluorescent probes, second harmonic generation organic dyes, and sensitizers for photodynamic therapy among others. In this dissertation, the aggregation behaviors and features of several squaraine dye derivatives in solid state thin films were studied and reported.In the first chapter of the dissertation, three squaraine dye derivatives with two and four hydroxy groups and with different N-alkyl amino donor substituents were synthesized and used as models to study aggregation behavior. Their UV-vis absorption, thermal properties, and photoluminescence properties were determined. The models with four hydroxy substituents exhibited higher thermal stability and melt at higher temperature compared to the dye with only two hydroxy substituents due to increased hydrogen bonding. The UV-vis absorption and photoluminescence properties in liquid solution at room temperature were found to be similar.In the second chapter, the squaraine dyes, 2,4-bis [4-(N,N-di-n-pentylamino)-2-hydroxyphenyl] squaraine [SQC5(OH)2], 2,4-bis [4-(N,N-di-n-pentylamino)-2,4-hydroxyphenyl] squaraine [SQC5(OH)4 n], and 2,4-bis [4-(N,N-di-isopentylamino)-2,4-hydroxyphenyl] squaraine [SQC5(OH)4 b], where (")n(") and (")b(") stand for normal or linear and branched alkyl groups, respectively, were investigated to study their aggregation in solid state thin film form using UV-vis absorption spectroscopy. The investigation revealed significant differences in aggregation behaviors and features. The dye SQC5(OH)2 mainly exhibited J-type aggregation with an intense absorption band in the NIR region. In contrast, the SQC5(OH)4 n and SQC5(OH)4 b compounds mainly exhibited H-type aggregation, characterized by less intense and blue shifted absorption bands. The third chapter presents the kinetic study conducted on the squaraine dye derivative 2,4-bis [4-(N,N-di-n-pentylamino)-2-hydroxyphenyl] squaraine [SQC5(OH)2] in solid state spin-coated thin films. The study revealed the formation of J-aggregates with bands at 767 nm at room temperature. This aggregate was temperature dependent. It was transformed into H-aggregates as the temperature increased. The activation energy of the decay (transformation) process was found to be 91.2 kJ. The values of ?H and ?S are 88.4 kJ/mol and 48.2 J/K.mol, respectively, indicating the J-aggregate of SQC5(OH)2 was a kinetic product while the H-aggregate was thermondynamically more stable.
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Date Issued
2015
Identifier
CFE0005778, ucf:50064
Format
Document (PDF)
PURL
http://purl.flvc.org/ucf/fd/CFE0005778
SQUARAINE DYES FOR TWO-PHOTON FLUORESCENCE BIOIMAGING APPLICATIONS
Title
SQUARAINE DYES FOR TWO-PHOTON FLUORESCENCE BIOIMAGING APPLICATIONS.
Creator
Colon Gomez, Maria, Belfield, Kevin, University of Central Florida
Abstract / Description
Near-infrared emitting squaraine dyes are promising candidates for bioimaging applications. Two-photon fluorescence microscopy (2PFM) imaging is a powerful tool being used for studying biological function since it produces 3D images with minimal damage to cells and lower fluorophore photobleaching. The fluorescence wavelength of squaraine dyes normally falls in the near infrared region, providing deeper penetration through biological samples such as thick tissue sections. Squaraine dyes that...
Show moreNear-infrared emitting squaraine dyes are promising candidates for bioimaging applications. Two-photon fluorescence microscopy (2PFM) imaging is a powerful tool being used for studying biological function since it produces 3D images with minimal damage to cells and lower fluorophore photobleaching. The fluorescence wavelength of squaraine dyes normally falls in the near infrared region, providing deeper penetration through biological samples such as thick tissue sections. Squaraine dyes that could work for imaging cells and tissues for 2PFM imaging were synthesized and underwent comprehensive photophysical characterization, such as UV-Vis absorption, fluorescence, and anisotropy. The squaraine dyes were tested for cell toxicity to determine the concentration at which the cells should be incubated with the dye for 2PFM. In addition, the squaraine dyes were incubated with cancer cells to evaluate their utility in the bioimaging process. The squaraine dye that is not soluble in water can be incorporated in silica nanoparticles or micelles to facilitate dispersal in water for evaluation of its use as a probe. The prospective squaraine dyes can be used in cells and tissues for imaging that can then be analyzed to ascertain its use as a probe for biomedical applications, such as early cancer detection.
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Date Issued
2013
Identifier
CFH0004338, ucf:45020
Format
Document (PDF)
PURL
http://purl.flvc.org/ucf/fd/CFH0004338
Squaraine dyes, design and synthesis for various functional materials applications
Title
Squaraine dyes, design and synthesis for various functional materials applications.
Creator
Zhang, Yuanwei, Belfield, Kevin, Campiglia, Andres, Zou, Shengli, Frazer, Andrew, Cheng, Zixi, University of Central Florida
Abstract / Description
This dissertation contains the synthesis and characterization of squaraine based new functional materials. In the first part of this thesis work, a water soluble benzothiazolium squaraine dye was synthesized with pyridium pendents, and controlled aggregation properties were achieved. After formation of partially reversible J-aggregation on a polyelectrolyte (poly(acryl acid) sodium salt) template, the nonlinear, two-photon absorption cross section per repeat unit was found to be above 30-fold...
Show moreThis dissertation contains the synthesis and characterization of squaraine based new functional materials. In the first part of this thesis work, a water soluble benzothiazolium squaraine dye was synthesized with pyridium pendents, and controlled aggregation properties were achieved. After formation of partially reversible J-aggregation on a polyelectrolyte (poly(acryl acid) sodium salt) template, the nonlinear, two-photon absorption cross section per repeat unit was found to be above 30-fold enhanced compared with nonaggregate and/or low aggregates. Using a similar strategy, sulfonate anions were introduced into the squaraine structure, and the resulting compounds exhibited good water solubilities. A 'turn on' fluorescence was discovered when these squaraine dyes interacted with bovine serum albumin (BSA), titration studies by BSA site selective reagents show these squaraine dyes can bind to both site I and II of BSA, with a preference of site II. Introduction of these squaraine dyes to BSA nanoparticles generated near-IR protein nano fabricates, and cell images were collected. Metal sensing properties were also studied using the sulfonates containing a benzoindolium squaraine dye, and the linear response of the absorption of the squaraine dye to the concentration of Hg2+ makes it a good heavy metal-selective sensing material that can be carried out in aqueous solution. Later, a squaraine scaffold was attached to deoxyribonucleosides by Sonogashira coupling reactions, in which the reaction conditions were modified. Iodo-deoxyuridine and bromo-deoxyadenosine were used as the deoxyribonucleosides building blocks, and the resulting squaraine dye-modified deoxyribonucleosides exhibited near-IR absorption and emission properties due to the squaraine chromophore. Interestingly, these non-natural deoxyribonucleosdies showed viscosity dependent photophysical properties, which make them nice candidates for fluorescence viscosity sensors at the cellular level. After incubation with cells, these viscosity sensors were readily uptaken by cell, and images were obtained showing regions of high viscosity in cells.
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Date Issued
2013
Identifier
CFE0005451, ucf:50369
Format
Document (PDF)
PURL
http://purl.flvc.org/ucf/fd/CFE0005451