Title of article
Determination of the protonation constants of electrochemically polymerized poly(aniline) and poly(o-methylaniline) films
Author/Authors
Lindfors، نويسنده , , Tom and Harju، نويسنده , , Leo، نويسنده ,
Issue Information
دوماهنامه با شماره پیاپی سال 2008
Pages
9
From page
233
To page
241
Abstract
A method was developed for the determination of the protonation constants ( K H n L n H , L ), the stoichiometric factor of the protonation reaction (n) and pH of the half-color transition point (pH1/2) of three different types of electrochemically polymerized poly(aniline) (PANI) and poly(o-methylaniline) (PoMeANI) films. The protonation constants describe the reversible emeraldine base (EB) to emeraldine salt (ES) transition. The calculations of the constants were based on absorbance data obtained from UV–vis measurements of the polymer films equilibrated in pH buffer solutions between pH 2 and 12.
shown that the protonation constant of the PANI film depends on the size of the acid counter ion, which is incorporated in the polymer film during electropolymerization in aqueous solution. Protonation constants of log K H n L n H , L = 3.5 (n = 0.57) and 5.4 (n = 0.56) were calculated for the PANI films prepared from a monomer solution containing 1.0 M HCl [small Cl− anion; PANI(Cl)] and 0.1 M DBSA [bulky DBS− anion; PANI(DBS)], respectively. The UV–vis spectra and pH1/2 shows that the electrically conducting protonated ES form of the PANI(DBS) film has a high stability and stays in the electrically conducting ES form between pH 2 and 7. In contrast, the PANI(Cl) film is mainly in the non-conducting EB form already at pH 7. The PoMeANI(Cl) film has a protonation constant of log K H n L n H , L = 3.2 (n = 0.61). It shows, in combination with pH1/2, that ring substitution lowers the stability of the ES form of PoMeANI(Cl) in comparison to the non-substituted PANI(Cl) film.
Keywords
Protonation constants , pH sensitivity , Poly(aniline) , Emeraldine base , Emeraldine salt , UV–vis spectroscopy , Average proton number , Poly(o-methylaniline)
Journal title
Synthetic Metals
Serial Year
2008
Journal title
Synthetic Metals
Record number
2084421
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