3D Monodisperse Oligofluorenes with Non-Conjugated Triphenylamine-Based Cores: Synthesis and Optoelectronic Properties
01 Apr 2010-European Journal of Organic Chemistry (John Wiley & Sons, Ltd)-Vol. 2010, Iss: 12, pp 2295-2303
TL;DR: Two 3D monodisperse oligofluorenes with non-conjugated triphenylamine-based cores have been synthesized by Friedel-Crafts copolycondensation reaction and emit deep-blue fluorescence with high efficiencies in thin films.
About: This article is published in European Journal of Organic Chemistry.The article was published on 2010-04-01 and is currently open access. It has received 12 citations till now. The article focuses on the topics: Triphenylamine.
Summary (2 min read)
Jump to: [Introduction] – [Synthesis and Characterization] – [Thermal and Photophysical Properties] and [Conclusions]
Introduction
- In the past decade, fluorene-based conjugated polymers have emerged as a very promising class of blue-light-emit- ting materials for use in polymer light-emitting diodes because of their high photoluminescence (PL) and electroluminescence (EL) quantum efficiencies, thermal sta- bility, good solubility and facile functionalization at the 9- position of fluorene. [1].
- Some researchers have demonstrated that the introduction of bulky groups at the 9-position of fluorene or introduction of cross-linkable moieties tended to suppress this emission and to improve the thermal stability of the PL spectra.[3].
- Inspired by these results, the authors recently synthesized monodisperse triphenylamine-substituted oligofluorenes[10] (shown in Scheme 1) in which the triphenylamine cyclic core serves as a non-conjugated spacer bearing oligofluorene arms in a multi-H shaped structure of oligomers.
Synthesis and Characterization
- The synthetic procedures used to prepare PF3-TPA3 and PF3-TPA are outlined in Scheme 3 and Scheme 4 respectively.
- Scheme 4. Synthetic route for the preparation of the steric monodisperse oligofluorene with a non-conjugated TPA core (PF3-TPA).
- The structures and monodispersities of PF3-TPA3 and PF3-TPA were identified by NMR, size-exclusion chromatography (SEC) and MALDI-TOF mass spectroscopy.
- The peaks at δ = 2.29 (6 H, singlet) and 2.05 ppm (16 H, multiplet) are due to the resonance of the CH3 groups in the TPA unit and the methylene protons of the octyl groups adjacent to C-9 of the fluorene units, respectively.
- The Mn values determined from the SEC analysis were based on polystyrene standards.
Thermal and Photophysical Properties
- The thermal properties of PF3-TPA3 and PF3-TPA were characterized by differential scanning calorimetry (DSC) and thermal gravimetric analysis (TGA) and the results are summarized in Table 1.
- In addition, there is a negligible shift in the absorption and PL spectra for both steric oligomers on changing from the solution to solid state, which indicates the absence of strong interchain interactions in the solid-state films.
- The PF3-TPA3 film showed lower stability in the n-doping process.
- This result indicates that introducing a non-conjugated triphenylamine X. Zhang, Y. Quan Z. Cui, Q. Chen, J. Ding, J. LuFULL PAPER unit core into the oligomers promotes their hole-injection capability, but does not sacrifice their electron-injection capability.
Conclusions
- Two 3D steric monodisperse oligofluorenes with a TPA3 and TPA core (PF3-TPA3 and PF3-TPA) have been synthesized by the Friedel-Crafts copolycondensation reaction.
- The triphenylamine-based cores serve as non-conjugated spacers bearing oligofluorene arms in a multi-H-shaped structure of oligomers such that the optoelectronic proper- ties of the individual oligofluorene arms remain relatively unperturbed.
- Both oligomers show excellent thermal sta- bility and high photoluminescence quantum efficiency.
- Electrochemical analysis showed that the non-conjugated triphenylamine core promotes the hole-injection capability of the oligomers, but does not sacrifice their electron-injec- tion capability.
- LED devices based on these two oligomers showed comparable performances with respect to tri- phenylamine-substituted linear polyfluorene derivatives in solution-processed light-emitting devices.
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Citations
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TL;DR: Charge transfer in 2-2, 3-3, 4-4, and 5-5 occur in three-dimensional directions due to the attractive spiral frameworks, and this is of great importance in the design of NLO materials.
Abstract: A series of spiral donor–π–acceptor frameworks (i.e. 2–2, 3–3, 4–4, and 5–5) based on 4-nitrophenyldiphenylamine with π-conjugated linear acenes (naphthalenes, anthracenes, tetracenes, and pentacenes) serving as the electron donor and nitro (NO2) groups serving as the electron acceptor were designed to investigate the relationships between the nonlinear optical (NLO) responses and the spirality in the frameworks. A parameter denoted as D was defined to describe the extent of the spiral framework. The D value reached its maximum if the number of NO2 groups was equal to the number of fused benzene rings contained in the linear acene. A longer 4-nitrophenyldiphenylamine chain led to a larger D value and, further, to a larger first hyperpolarizability. Different from traditional NLO materials with charge transfer occurring in the one-dimensional direction, charge transfer in 2–2, 3–3, 4–4, and 5–5 occur in three-dimensional directions due to the attractive spiral frameworks, and this is of great importance in the design of NLO materials. The origin of such an enhancement in the NLO properties of these spiral frameworks was explained with the aid of molecular orbital analysis.
10 citations
TL;DR: Monodisperse macrospirocyclic oligomers were prepared using self-condensation of the Friedel-Crafts reaction, affording the resulting macrocyclics a high steric hindrance for close interchain packing.
9 citations
TL;DR: Two new types of NIR dyes with longer wavelengths are provided by the diradical-dication strategy, which can be applied for the generation of other NIRDyes with a range of different chromophores and auxochromes.
Abstract: Four stable boron dipyrromethene (BODIPY)- and porphyrin-based bis-arylamine diradical dications were synthesized by two-electron oxidation of their neutral molecules. The two BODIPY-based dications have open-shell singlet ground states. UV/Vis absorption spectra of all four dications showed large redshifts in the NIR region compared to their neutral precursors with absorption maxima at 1274 and 1068 nm for the two BODIPY-based dications and 1746 and 2037 nm for the two porphyrin-based dications. Thus, two new types of NIR dyes with longer wavelengths are provided by the diradical-dication strategy, which can be applied for the generation of other NIR dyes with a range of different chromophores and auxochromes.
8 citations
07 Apr 2012
TL;DR: In this paper, a copolymer based on triphenylamine (TPA) and 3,4-ethylenedioxythiophene (EDOT) is polymerized electrochemically.
Abstract: Copolymer based on triphenylamine (TPA) and 3,4-ethylenedioxythiophene (EDOT) is polymerized electrochemically. The structure, morphology and electrochemical properties of the obtained copolymer are investigated by cyclic voltammetry and FT-IR spectroscopy. The results confirm the copolymerization of TPA/EDOT. UV-vis spectra show that the absorption peaks of the copolymer are different from those of Polytriphenylamine. Moreover, photoluminescence spectra of the copolymer exhibit great changes in emission color from pale blue to pale green with the variety of ratio of two monomers. Therefore, the monomer feed ratio plays important roles in the optical property of this copolymer.
2 citations
TL;DR: In this paper , a series of emissive metal-organic frameworks (MOFs) generated using BUT-10 (but: Beijing University of Technology) that emitted green light with λmax at 525 nm.
Abstract: Luminescent materials with tunable emission are becoming increasingly desirable as we move towards needing efficient Light Emitting Diodes (LEDs) for displays. Key to developing better displays is the advancement of strategies for rationally designing emissive materials that are tunable and efficient. We report a series of emissive metal-organic frameworks (MOFs) generated using BUT-10 (BUT: Beijing University of Technology) that emits green light with λmax at 525 nm. Post-synthetic reduction of the ketone on the fluorenone ligand in BUT-10 generates new materials, BUT-10-M and BUT-10-R. The emission for BUT-10-R is hypsochromically-shifted by 113 nm. Multivariate BUT-10-M structures demonstrate emission with two maxima corresponding to the emission of both fluorenol and fluorenone moieties present in their structures. Our study represents a novel post-synthetic ligand reduction strategy for producing emissive MOFs with tunable emission ranging from green, white-blue to deep blue.
References
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TL;DR: In this article, a dioctyl-substituted polyfluorene was used as the emissive layer in combination with a polymeric triphenyldiamine hole transport layer.
Abstract: Efficient blue electroluminescence, peaked at 436 nm, is demonstrated from polymer light-emitting diodes operating at high brightness A dioctyl-substituted polyfluorene was used as the emissive layer in combination with a polymeric triphenyldiamine hole transport layer The luminance reaches 600 cd/m2 at a current density of 150 mA/cm2 for a bias voltage of 20 V, corresponding to an efficiency of 025 cd/A and a luminosity of 004 lm/W These values are optimized at a critical emissive layer thickness
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