Polyaniline Conducting Electroactive Polymers Thermal and Environmental Stability Studies

Ansari, R.; Keivani, Mohammad Banimahd

doi:10.1155/2006/395391

Cited by 123 publications

(82 citation statements)

References 41 publications

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“…The smooth thermogram shows only one exothermic peak at 668 K, where thermal decomposition of polyaniline takes place. Ansari and Keivani (2006) obtained the similar behavior of polyaniline prepared by cyclic voltammetry and reported that the polyaniline prepared by cyclic voltammetry is highly thermal stable than that of prepared by potentiostatic mode.…”

Section: Thermo-emf Measurementmentioning

confidence: 70%

Facile and novel route for preparation of nanostructured polyaniline (PANi) thin films

et al. 2012

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Simple and inexpensive single step facile novel chemical route for the preparation of polyaniline (PANi) nanofibers has been reported. These PANi nanofibers are characterized with X-ray diffraction (XRD), Fourier transform infrared (FTIR) spectroscopy, Field emission scanning electron microscopy (FESEM) and Transmission electron microscopy (TEM). Polyaniline nanofibers exhibit amorphous nature as confirmed from XRD and SAED study. Based on FESEM and TEM analysis, the formation of the polyaniline nanofibers with average diameter of about 40 nm was inferred. The presence of characteristic bonds of polyaniline was observed from FTIR spectroscopy technique. Electrical and optical properties revealed that p-type conductivity PANi with room temperature conductivity of 2.77 9 10 -5 (X cm) -1 has band gap of 3.40 eV. A blue shift of 0.86 eV with characteristic absorption peak at 441 nm has been attributed due to quantized size of polyaniline nanofibers.

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Section: Thermo-emf Measurementmentioning

confidence: 70%

Facile and novel route for preparation of nanostructured polyaniline (PANi) thin films

et al. 2012

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“…Similar to metals, it owns unusual electronic, magnetic, electrochemical and optical properties jointly with high environmental stability, easy polymerization and low cost of monomer. However, its processability by melting is not practical since the polymer decomposes at temperatures below its softening or melting point [1][2][3][4] . Basically, in the previous published articles, the presence, absence and type of dopant agent besides the thermal treatment on its behavior have been highlighted.…”

Section: Introductionmentioning

confidence: 99%

Sulfonated polyaniline: influence of sulfonation routes on its thermal and structural characteristics

et al. 2011

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In order to study the influence of different sulfonation routes on its thermal and structural properties sulfonated polyaniline (SPAni) was prepared. FT-IR revealed that the formation of PAni salt or ring sulfonation depends on the route. UV-visible spectra pointed out that the level of the PAni protonation was dependent on the sulfonation route. A new approach was given for TG/DTG and DSC results correlating different energy levels with the distinguished sulfonation routes. The TG/DTG degradation steps and the amount of the released material corroborated the structural differences of the polyanilines. For each DSC first regime of heating, a broad and intense peak (from -30 to 250 °C) with different level of energy was noticed. That peak could be ascribed to the multiple relaxations and breaking of the PAni intra and inter hydrogen bonds after sulfonation.

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“…These protonated polymers were stable up to 200 ∘ C. Chen [18] compared the thermal stability of emeraldine base and emeraldine salt. The highest thermal degradation temperature of emeraldine salt was found to be 410 ∘ C while for emeraldine base it was 450 ∘ C. Ansari and Keivani [19] synthesized emeraldine salt in the presence of different bronsted acids such as hydrochloric acid (HCl), sulfuric acid (H 2 SO 4 ), and 8-hydroxypyrene-1,3,6-trisulfonate (HPTS). They found that thermal stability of the synthesized emeraldine salt was highly dependent on the nature and size of the dopant used.…”

Section: Journal Of Chemistrymentioning

confidence: 99%

“…All the above studies reveal that the method of synthesis is important in determining the thermal stability of the polymer. Generally a three-step decomposition process has been observed for the emeraldine salt [9,19]. In this process the initial stage of weight loss is due to the volatilization of water molecules; then at higher temperatures the protonic acid component of the polymer is lost and finally at more extreme temperatures the degradation of the polymer can lead to production of gases such as acetylene and ammonia or amorphous carbon [19,24].…”

Section: Journal Of Chemistrymentioning

confidence: 99%

Effect of High Temperature on the Electrochemical and Optical Properties of Emeraldine Salt Doped with DBSA and Sulfuric Acid

Gul

Shah

Bilal

2015

Journal of Chemistry

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A comprehensive study of thermally treated polyaniline in its emeraldine salt form is presented here. It offers an understanding of the thermal stability of the polymer. Emeraldine salt was prepared by a novel emulsion polymerization pathway using dodecylbenzene sulfonic acid and sulfuric acid together as dopants. The effect of temperature and heating rate on the degradation of this emeraldine salt was studied via thermogravimetric analysis. The thermally analyzed sample was collected at various temperatures, that is, 250, 490, 500, and 1000 ∘ C. The gradual changes in the structure of the emeraldine salt were followed through cyclic voltammetry, Fourier transform infrared spectroscopy, and ultraviolet-visible spectroscopy. Results demonstrate that emeraldine salt shows high thermal stability up to 500 ∘ C. This is much higher working temperature for the use of emeraldine salt in higher temperature applications. Further heat treatment seems to induce deprotonation in emeraldine salt. Cyclic voltammetry and ultraviolet-visible spectroscopy revealed that complete deprotonation takes place at 1000 ∘ C where it loses its electrical conductivity. It is interesting to note that after the elimination of the dopants, the basic backbone of emeraldine salt was not destroyed. The results reveal that the dopants employed have a stability effect on the skeleton of emeraldine salt.

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Polyaniline Conducting Electroactive Polymers Thermal and Environmental Stability Studies

Cited by 123 publications

References 41 publications

Facile and novel route for preparation of nanostructured polyaniline (PANi) thin films

Facile and novel route for preparation of nanostructured polyaniline (PANi) thin films

Sulfonated polyaniline: influence of sulfonation routes on its thermal and structural characteristics

Effect of High Temperature on the Electrochemical and Optical Properties of Emeraldine Salt Doped with DBSA and Sulfuric Acid

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