Synthesis and Analysis of Triphenylamine: A Review

Manifar, Touraj; Rohani, Sohrab

doi:10.1002/cjce.5450820213

Cited by 24 publications

(15 citation statements)

References 87 publications

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“…Different synthetic methods are known for TPA‐type molecules. They can be obtained for example by modifications of the Ullmann condensation reaction (1903) through the nucleophilic substitution of an aryl halide in the presence of a copper catalyst and a base . More recently, the use of palladium catalysts with phosphine ligands was found to be a successful approach for the synthesis of TPA derivatives such as mixed secondary arylamines obtained from amination of aryl halides, allowing milder reaction conditions and easier separation and crystallization steps.…”

Section: Structural and Electronic Properties Of Tpamentioning

confidence: 99%

Triphenylamine and some of its derivatives as versatile building blocks for organic electronic applications

Blanchard

Malacrida

Cabanetos

et al. 2018

Polymer International

116

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This review article gives an overview of past and current activities in the Linear Conjugated Systems Group of Angers and in the IPOC – Functional Polymers Group of the Institute of Polymer Chemistry of Stuttgart on the use of triphenylamine (TPA) as versatile building block for organic electronics. In the first part, the properties of TPA itself are introduced including geometrical and energy level considerations. Dimerization of TPA to tetraphenylbenzidine upon electrochemical oxidation is highlighted. The blocking of TPA para‐positions and its implications in terms of electroactivity is further discussed. The second part shows that dimerization of TPA as pendant redox‐active moieties in polymers is a versatile strategy to crosslink polymer films. Coming from redox homopolymers the crosslinking strategy is extended towards conjugated redox polymers based on polythiophenes and block copolymers. Conductivity mechanisms and the influence of doping level on conductivity are probed with cyclic voltammetry coupled with in situ conductance and four‐point probe measurements. The last part is dedicated to the use of TPA as an electron‐donating block in the design of donor‐π‐acceptor chromophores and their use as active material in organic photovoltaics. An overview of some relevant TPA‐based push–pull molecules from the literature and our contribution to this field is presented emphasizing the progress of the photovoltaic performance of organic solar cells made over the last decade. © 2018 Society of Chemical Industry

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Section: Structural and Electronic Properties Of Tpamentioning

confidence: 99%

Triphenylamine and some of its derivatives as versatile building blocks for organic electronic applications

Blanchard

Malacrida

Cabanetos

et al. 2018

Polymer International

116

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“…The acridan, 12 , formed by reduction of the parent 10‐phenylacridinium salt can be characterized as a bridged triarylamine and is closely structurally and electronically related to triphenylamine. Triphenylamine is only very weakly basic ( K b ≤ 10 −10 ) so that its protonated onium salts are fully ionized in water and behave as Brønsted acids 27. For this reason, 12 does not inhibit the cationic polymerizations of highly reactive monomers such as epoxides, oxetanes and vinyl ethers.…”

Section: Resultsmentioning

confidence: 99%

“…Triphenylamine is only very weakly basic (K b 10 À10 ) so that its protonated onium salts are fully ionized in water and behave as Brønsted acids. 27 For this reason, 12 does not inhibit the cationic polymerizations of highly reactive monomers such as epoxides, oxetanes and vinyl ethers. A similar argument can be advanced for the reduction product, 17, of 2-phenylisoquinolinium salts.…”

Section: Study Of Redox Initiated Cationic Polymerizationsmentioning

confidence: 99%

Redox initiated cationic polymerization: Silane‐N‐aryl heteroaromatic onium salt redox couples

Crivello

Lee

2010

J. Polym. Sci. A Polym. Chem.

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In this article, a new route for the synthesis of N‐aryl heteroaromatic onium salts by the direct copper catalyzed arylation of pyridine, substituted pyridines, isoquinoline, and acridine with diaryliodonium salts is described. It was demonstrated that these N‐aryl heteroaromatic onium salts undergo facile platinum or rhodium‐catalyzed reduction by silanes bearing SiH groups. The reduction of N‐aryl heteroaromatic onium salts generates Brønsted acids. When this redox reaction was carried out in situ in the presence of an appropriate monomer, cationic polymerization was observed. Using this approach, the cationic polymerizations of epoxides, oxetanes, 1,3,5‐trioxane, styrene, and vinyl ethers were carried out. The use of optical pyrometry to monitor the redox initiated cationic polymerizations of some representative multifunctional monomers is described. © 2010 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2010

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“…In the past decades, the intrinsic characteristics of donor–acceptor (D–A) conjugated polymers containing Sp 3 CN bond have been widely studied as important organic semiconductor materials for optoelectronic applications, such as light‐emitting diodes, polymer solar cells, and organic field effect transistors . The classical structures, such as polyaniline and triphenylamine, are shown in Figure .…”

Section: Introductionmentioning

confidence: 99%

“…Also, polymeric materials based on triphenylamine units have been widely used as semiconductor materials for electro‐optics applications. The structure feature of triphenylamine is that the electron‐rich nitrogen atom links with three π‐conjugated phenyl groups, resulting in its narrower band gaps than that of non‐doped polyaniline. Incorporating triphenylamine into polymer backbones with π‐conjugated system could obtain excellent charge‐transport, hole‐transporting, and electroluminescence properties with controllable band gaps .…”

Section: Introductionmentioning

confidence: 99%

Influence of donor-acceptor conjugation between thiophene-phthalazinone structures containing Sp³ CN bond on the frontier orbital levels and optic-electronic properties

Han

Cheng

Liu

et al. 2016

J. Polym. Sci. Part A: Polym. Chem.

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Herein, an electron‐deficient phthalazinone unit containing a unique Sp3 hybrid nitrogen atom as an acceptor to cut off the ether bond was presented and three Donor–Acceptor (D–A) conjugated fluoropolymers via Classical Aromatic Nucleophilic Displacement Polymerization (CANDP) method were successfully synthesized. These polymers exhibit excellent thermostability. The 5% weight loss temperature of PDT2TF under nitrogen atmosphere is high, up to 470 °C. This is due to that the D–A conjugation between thiophene‐phthalazinone units affects its resonance energy and stabilizes the thiophene‐phthalazinone structures. These three fluoropolymers show strong absorptions and fluorescence in visible light region both in solution and thin film states. The band gaps (Eg) of these polymers are narrower than that of their corresponding di‐NH capped monomers, owing to the good electronic communication properties of the Sp3 nitrogen atom in the phthalazinone unit. The Eg value of PDT3TF is decreased to 2.03 eV. These results indicate that phthalazinone unit is an efficient acceptor and could exhibit strong D–A effect with thiophene unit. Also, the Sp3 nitrogen atom in the phthalazinone shows good electronic wave function and charge transport properties. This facile CANDP synthetic method combined with Sp3 CN bond linked electron‐deficient phthalazinone unit affords polymers with controllable photoelectric properties. © 2016 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2016, 54, 3470–3483

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Synthesis and Analysis of Triphenylamine: A Review

Cited by 24 publications

References 87 publications

Triphenylamine and some of its derivatives as versatile building blocks for organic electronic applications

Triphenylamine and some of its derivatives as versatile building blocks for organic electronic applications

Redox initiated cationic polymerization: Silane‐N‐aryl heteroaromatic onium salt redox couples

Influence of donor-acceptor conjugation between thiophene-phthalazinone structures containing Sp³ CN bond on the frontier orbital levels and optic-electronic properties

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Synthesis and Analysis of Triphenylamine: A Review

Cited by 24 publications

References 87 publications

Triphenylamine and some of its derivatives as versatile building blocks for organic electronic applications

Triphenylamine and some of its derivatives as versatile building blocks for organic electronic applications

Redox initiated cationic polymerization: Silane‐N‐aryl heteroaromatic onium salt redox couples

Influence of donor-acceptor conjugation between thiophene-phthalazinone structures containing Sp3 CN bond on the frontier orbital levels and optic-electronic properties

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Influence of donor-acceptor conjugation between thiophene-phthalazinone structures containing Sp³ CN bond on the frontier orbital levels and optic-electronic properties