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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01 Jan 2003
TL;DR: In this paper, the photoluminescence (PL) and electroluminescent (EL) of polyfluorene (PF)-based light-emitting diodes (LEDs) were studied and it was shown that the low-energy emission band originates from fluorenone defects which are introduced by photo-oxidization, thermal oxidation, or during device fabrication.
Abstract: Polyfluorene (PF)-based light-emitting diodes (LEDs) typically exhibit device degradation under operation with the emergence of a strong low-energy emission band (at ∼ 2.2–2.4 eV). This longer wavelength band converts the desired blue emission to blue–green or even yellow. We have studied both the photoluminescence (PL) and electroluminescence (EL) of PFs with different molecular structures and found that the low-energy emission band originates from fluorenone defects which are introduced by photo-oxidization, thermal oxidation, or during device fabrication. X-ray photo-emission spectroscopy (XPS) results show that the oxidation of PF is strongly catalyzed by the presence of calcium. The fluorenone defects generate a stronger contribution to the EL than to the PL. By utilization of a novel electron-transporting material as a buffer layer between the emissive PF and the Ca/Ag (Ba/Ag) cathode, the blue EL emission from the PF was stabilized.
280 citations
TL;DR: A series of starburst materials (T1−T3) bearing a 1,3,5-tri(anthracen-10-yl)benze-ne core (T0) and three oligofluorenes arms have been synthesized and characterized.
Abstract: A series of starburst materials (T1−T3) bearing a 1,3,5-tri(anthracen-10-yl)benze-ne core (T0) and three oligofluorenes arms have been synthesized and characterized. Single-crystal diffraction analysis has shown that the core of these starburst materials possess a propeller twist topology, which made the starburst materials exhibit good film-forming capabilities and display deep blue emission both in solution and in the thin solid film. The compounds (T1−T3) possess high glass transition temperatures (Tg’s) at 107, 109, and 110 °C, and high decomposition temperatures (Td’s) at 438, 440, and 434 °C, respectively. In addition, the double-layered devices fabricated with the three materials as the emitter show a stable deep-blue emission and the device performance increases with arm length at some extent. The double-layered device based on T2 has a maximum brightness of over 3400 cd/m2 and a maximum current efficiency of 1.80 cd/A with CIE coordinates of (0.149, 0.098), which is among the best of the deep-blu...
70 citations
TL;DR: In this article, a triphenylamine-fluorene oligomer with macro-spirocyclic structure was designed and prepared as a host for exciplex based white phosphorescent organic light-emitting diodes (white PhOLEDs), in which only iridium(III)bis(4,6-(difluorophenyl)pyridinato-N,C2)picolinate (FIrpic) was employed as the dopant.
Abstract: A novel triphenylamine-fluorene oligomer with macro-spirocyclic structure was designed and prepared as a host for exciplex based white phosphorescent organic light-emitting diodes (white PhOLEDs), in which only iridium(III)bis(4,6-(difluorophenyl)pyridinato-N,C2)picolinate (FIrpic) was employed as the dopant. The device exhibited a comparatively high performance with a maximum luminance and current efficiency of 14 213 cd m−2 and 22.6 cd A−1, respectively.
18 citations
TL;DR: A series of T- and H-shaped donor-acceptor (D-A) types of dipyrido[3,2-a:2',3'-c]phenazine (DPPZ)-based molecules, extended by thienyl and triphenylamino chromophores at the 2,7-(bottom) and/or 10,13-positions (top), have been designed and prepared successfully.
Abstract: A series of T- and H-shaped donor-acceptor (D-A) types of dipyrido[3,2-a:2',3'-c]phenazine (DPPZ)-based molecules, extended by thienyl and triphenylamino chromophores at the 2,7-(bottom) and/or 10,13-positions (top), have been designed and prepared successfully. Synthetic, structural, thermal, spectral, and computational comparisons have been carried out for related compounds because of their adjustable intramolecular charge-transfer properties. It is noted that a pair of structural isomers (5 and 6) has been obtained, respectively, where distinguishable UV/Vis and fluorescence spectra, electrochemical activity, thermal stability, and bandgaps are observed. Furthermore, compounds 6, 8, 10, 11, 13, and 15 exhibit excellent thermal stability, and the Td10 values for them are found to range from 524 to 646 °C, which can be regarded as one of the best groups of thermally stable compounds among organic small molecules. In addition, theoretical calculations were performed, and the structure-property relationships were examined to reveal the effects of the position and number of donor arms on the DPPZ acceptor core.
13 citations
Journal Article•
TL;DR: In this paper, the properties of alternating copolymers of 9,9-dioctylfluorene and oxadiazole (F/Ox) have been studied by cyclic voltammetry (CV), photoluminescence (PL) and electroluminecence (EL).
Abstract: The properties of alternating copolymers of 9,9-dioctylfluorene and oxadiazole (F/Ox copolymers) have been studied by cyclic voltammetry (CV), photoluminescence (PL) and electroluminescence (EL). The copolymers contained oxadiazole units symmetrically dispersed in the main chain between one, P(F 1 -alt-Ox), three, P(F 3 -alt-Ox), or four, P(F 4 -alt-Ox), fluorene units, as well as asymmetrically distributed in the chain, P(F 2 -as-Ox). CV studies revealed that all the copolymers, except P(F 1 -alt-Ox), had high electrochemical stabilities, and exhibited both reversible n- and p-doping processes. Meanwhile P(F 1 -alt-Ox) only showed a stable and reversible n-doping process. The CV data also showed that the LUMO levels for the copolymers are close to the work functions of cathode materials such as Ca and Mg, indicating a favourable electron transport property of the copolymers. The PL spectra of the copolymers show a stable blue light-emitting behaviour in the solid state upon annealing under inert gas at temperatures from 40 to 150 °C. However, a broad peak appeared at 510 nm when the samples were annealed at 120 °C in the presence of oxygen. EL studies of a bi-layer light-emitting diode (LED) device produced from P(F 3 -alt-Ox) demonstrated stable spectra with features similar to those of the PL spectra. The results of this study suggest that F/Ox copolymers are good candidates for use as electron transport layers and blue light-emitting materials in bi-layer LED devices.
13 citations
References
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TL;DR: The 9,9-diaryl substituents at the central linkage play a less important role in the photophyscial properties but affect the oxidation potential and improve the morphological stability of these new triarylamines.
76 citations
TL;DR: In this article, the authors describe the use of combinatorial vapor deposition techniques for the optimization of blue organic light emitting diodes (OLEDs), in which the star shaped molecule 1 with a triphenylamine core and three fluorene side groups serves as hole transport and emitting layer.
Abstract: In this paper we describe the use of combinatorial vapor deposition techniques for the optimization of blue organic light emitting diodes (OLEDs). In these devices the star shaped molecule 1 with a triphenylamine core and three fluorene side groups serves as hole transport and emitting layer. Compound 2 with a much lower lying HOMO and a larger bandgap is used as hole blocking layer. Using combinatorial vapor deposition 42 OLEDs with thickness gradients of both the hole transport and the hole blocking layer have been simultaneously prepared on one substrate. The physical characterization of the devices clearly shows that a hole blocking layer of the star shaped molecule 2 is necessary in order to obtain pure blue emission with CIE coordinates of x = 0.15 and y = 0.15. A thickness of only 5 nm of the blocking layer is sufficient, and with increasing layer thickness the brightness of the blue devices drops. The blue devices exhibit a brightness of 400 cd m -2 and a luminous efficiency of 2 cdA -1 . The thickness variations of both the hole transport and the hole blocking layer have been made in one combinatorial evaporation experiment on a single substrate using a set of movable masks. This demonstrates how efficient combinatorial methods can be used for the development of OLEDs.
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TL;DR: Tetrahedral precursors of tetra(N-alkyl-3-bromocarbazole-6-yl)silanes (1-3), which were amorphous with T(g) being adjustable by changing the chain length of the N-substitutent, were developed.
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TL;DR: In this paper, a spiro-fluorene derivative with bulky tert-butyl-substituted triphenylamine structure was synthesized in an attempt to enhance both hole injection and physical properties.
Abstract: We report on the synthesis of a spiro-fluorene derivative with bulky tert-butyl-substituted triphenylamine structure. The compound was synthesized in an attempt to enhance both hole injection and physical properties. A series of copolymers of the compound and a spiro-anthracenefluorene structure were synthesized, and their physical, optical, and electrochemical characteristics were investigated. The polymers showed good thermal stability with decomposition temperatures in excess of 389 °C and high glass transition temperatures in the range of 112−207 °C. The emission characteristics of the polymers were similar to that of dialkyl polyfluorenes. Cyclic voltametry studies revealed that the energy level of polymers can be tuned by adjusting the spiro-triphenylamine content with a tuning range of about 0.5 eV. Organic light-emitting diodes were fabricated using the polymers. All of the devices showed an emission in the deep blue region, and the copolymers showed improved hole injecting/transporting characteri...
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TL;DR: In this article, four triphenylamine groups-substituted fluorene with rather high glass transition temperature, T g, of 165°C, was prepared and employed together with TPD as a composite hole-transporting layer to give a device with very low turn-on voltage and high efficiency.
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