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Aggregation of Squaraine Dye Derivatives in Solid State Spin-coated Thin Films

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 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 ΔH and ΔS 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.

Identiferoai:union.ndltd.org:ucf.edu/oai:stars.library.ucf.edu:etd-2209
Date01 January 2015
CreatorsDaoudi, Mohammed
PublisherSTARS
Source SetsUniversity of Central Florida
LanguageEnglish
Detected LanguageEnglish
Typetext
Formatapplication/pdf
SourceElectronic Theses and Dissertations

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