On the Electrical and Optical Properties of Some Poly(Azomethine Sulfone)s in Thin Films

Rusu, M.; Airinei, Anton; Marin, Luminița; Cozan, Vasile; Rambu, Petronela; Caplanus, I.; Rusu, G.I.

doi:10.1080/00222348.2010.507444

Cited by 4 publications

(4 citation statements)

References 46 publications

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“…9,10 Also, they have showed fluorescence properties because of conjuge π-bonding. [11][12][13] Furthermore, poly (azomethine)s have the ability to form a good film 14,15 for high-quantum efficiency, light emitting, sensitivity to photonic and electronic stimuli, macromolecular interaction and multi-color emission properties when excited at certain wavelengths. [16][17][18] Kaya et al have long studied the thermal, electrochemical, optical, and electrical properties of poly(azomethine)s. 19,20 However, the application areas of aromatic poly(imine)s have limited due to their high-melting points and low-solubilities properties.…”

Section: Introductionmentioning

confidence: 99%

Synthesis, characterization, photophysical and surface properties of poly(amino naphthalene) and its poly(azomethine) compound

Kaya

Akyüz

Özel

2023

J of Applied Polymer Sci

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In this study, 8‐((4‐hydroxybenzylidene)amino)naphthalene‐2‐ol (ANAPSB) compound was synthesized from condensation reaction of 8‐amino‐2‐naphthol (ANAP) with 4‐hydroxybenzaldehyde and then ANAPSB and 8‐amino‐2‐naphthol were polymerized via oxidative polycondensation alkaline medium by H2O2 (35% aqueous solution) as oxidant at 70°C 14 h. The structures of compounds were confirmed by UV–Vis, 1H‐13C‐NMR and FT‐IR measurements. The surface morphologies of PANAP and PANAPSB were examined with SEM analyses. The electrochemical properties of 8‐amino‐2‐naphthol, poly(8‐amino‐2‐naphthol) (PANAP), ANAPSB and poly(8‐((4‐hydroxybenzylidene)amino)naphthalene‐2‐ol) (PANAPSB) were determined by cyclic voltammetry technique. The thermal properties of compounds were found by TG‐DTA analysis. The glass transition temperatures (Tg) of PANAP and PANAPSB were determined from DSC measurements. The Tg values of PANAP and PANAPSB were found to be 159 and 150°C, respectively. The Mn, Mw, Mp, Mz and PDI values of the PANAP and PANAPSB were calculated from gel permeation chromatography measurements. The optical and fluorescence properties of the compounds were determined by UV–Vis and fluorescence measurements, respectively. The optical band gap values of ANAP, PANAP, ANAPSB and PANAPSB were calculated as 3.12, 1.61, 2.79 and 1.57 eV, respectively.

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Section: Introductionmentioning

confidence: 99%

Synthesis, characterization, photophysical and surface properties of poly(amino naphthalene) and its poly(azomethine) compound

Kaya

Akyüz

Özel

2023

J of Applied Polymer Sci

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“…Polysulfone (PSF) is a translucent engineering plastic with a sulfone group in its backbone commonly used in medical and food processing equipment, electrical and electronic components, camera boxes, and pipes 26 , 27 . These groups can chelate with transition metal ions in their solution, changing the nature of their optical characteristics and potentially serving as a useful sensor for these metals 28 – 30 . Corrosion of metals and steel, used in every industrial sector as medical, construction, and transportation means, is one of the problems that can harm the economic, engineering, and scientific worlds.…”

Section: Introductionmentioning

confidence: 99%

Synthesis, physico-chemical characterization, and environmental applications of meso porous crosslinked poly (azomethine-sulfone)s

Sayed

Abdel-Hakim

Mahross

et al. 2022

Sci Rep

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To develop innovative mesoporous crosslinked poly(azomethine- sulfone)s with environmental applications, a simple Schiff base condensation technique based on barbituric acid BA or condensed terephthaldehyde barbituric acid TBA in their structures as monomeric units are applied. Different analysis methodologies and viscosity measurements identify them as having stronger heat stability and an amorphous structure. The photophysical features of the multi stimuli response MSR phenomenon are observable, with white light emission at higher concentrations and blue light emission at lower concentrations. Their emission characteristics make them an excellent metal ions sensor through diverse charge transfer methods. They can have a better inhibition efficiency and be employed as both mixed-type and active corrosion inhibitors according to their fluorescence emission with metals, demonstrating their capacity to bind with diverse metals. The adsorption of two distinct dye molecules, Methylene blue MB cationic and sunset yellow SY anionic, on the mesoporous structures of the polymers is investigated, revealing their selectivity for MB dye adsorption. Quantum studies support these amazing discoveries, demonstrating a crab-like monomeric unit structure for the one that is heavily crosslinked.

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“…These conjugated polymers have been attracted much interest because of their thermal stability, mechanical strength, optoelectronic, photovoltaic, paramagnatism, electrical conductivity, liquid crystalline, therapeutic, and ability to form complexes with metals, applications such as sensors and light emitting materials . Moreover, different derivatives of PAMs such as poly(azomethine‐urethane)s, poly(azomethine‐ether)s, poly(azomethine‐carbonate)s, and poly(azomethine‐sulfone)s were synthesized to improved solubility and processability of these polymer types.…”

Section: Introductionmentioning

confidence: 99%

Poly(azomethine‐imide)s containing siloxane moities: Optical, thermal, mechanical, and morphological properties

Kaya

Kamacı

2019

J of Applied Polymer Sci

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A new series of poly(azomethine‐imide)s having siloxane moities in backbone was prepared using different dianhydrides.Thermal, optical, and morphological properties of these polymers were clarified. Also, bulky CO and CF3 group effects and meta or para‐substituted aldeyhde effects on the mentioned properties were evaluated. The structural characterization of poly(azomethine‐imide)s was carried out using a FT‐IR spectroscopy. The optical properties of the polymers were performed via an UV–Vis spectrophotometer. Optical band gap of the poly(imide)s containing azomethine was calculated between 2.20 and 2.33 eV. Thermal behavior of poly(azomethine‐imide)s was also studied using TG‐DTA, DSC, and DMA techniques. The onset degradation temperature and percentage char values of the polyimides were found in the range from 429 to 545 °C and 22 to 35%, respectively. Thermal stability results demonstrated that benzophenone bearing poly(azomethine‐imide)s have higher onset temperature, percentage char, and the glass transition temperature than poly(azomethine‐imide)s derived from hexafluoroisopropylidene. © 2019 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2020, 137, 48364.

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On the Electrical and Optical Properties of Some Poly(Azomethine Sulfone)s in Thin Films

Cited by 4 publications

References 46 publications

Synthesis, characterization, photophysical and surface properties of poly(amino naphthalene) and its poly(azomethine) compound

Synthesis, characterization, photophysical and surface properties of poly(amino naphthalene) and its poly(azomethine) compound

Synthesis, physico-chemical characterization, and environmental applications of meso porous crosslinked poly (azomethine-sulfone)s

Poly(azomethine‐imide)s containing siloxane moities: Optical, thermal, mechanical, and morphological properties

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