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Complexation of polyaniline with Lewis acids - a Mössbauer spectroscopy study

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
Proceedings of the All-Polish Seminar on Moessbauer Spectroscopy OSSM'2002, June 9-12, 2002, Goniądz, Poland
Języki publikacji
EN
Abstrakty
EN
Doping with Lewis acid is a new method for improving solution processibility of conductive polyaniline. We report here detailed Mössbauer spectroscopy studies of polyaniline complexed with Lewis acids containing Mössbauer active nuclei, namely SnCl4 and FeCl3. Films of Lewis acid doped polyaniline cast from nitromethane solutions show stoichiometries of PANI(MeCln)1(CH3NO2)1 (where n = 3 or 4, Me denotes Sn or Fe and PANI denotes one aniline repeat unit), which means that both types of polyaniline nitrogens (imine and amine) participate in the complexation reaction, and one solvent molecule is introduced in the polymer matrix per one Lewis acid molecule. Mössbauer parameters of polyaniline doped with SnCl4 are consistent with hexacoordinated Sn(IV) in an environment of non-equivalent ligands. The spectrum of PANI doped with FeCl3 consists of two doublets with distinctly different Mössbauer parameters, which can be ascribed to two types of complexing sites (amine and imine nitrogens). From the temperature dependence of the isomer shift and the recoil free absorption, we have calculated the Mössbauer lattice temperature, ?m, as probed by both complexing sites, which are 83 K for amine and 126 K for imine sites.
Czasopismo
Rocznik
Strony
3--7
Opis fizyczny
Bibliogr. 14 poz., rys.
Twórcy
  • Faculty of Chemistry, Warsaw University of Technology, 3 Noakowskiego Str., 00-664 Warsaw, Poland, Tel.: +48 22/ 660 55 84, Fax: +48 22/ 628 27 41
autor
  • Laboratoire de Physicochimie des Métaux en Biologie, CEA Grenoble/DBMS, 17 des Martyrs Ave., 38054 Grenoble, France
autor
  • Laboratoire de Physicochimie des Métaux en Biologie, CEA Grenoble/DBMS, 17 des Martyrs Ave., 38054 Grenoble, France
  • Faculty of Chemistry, Warsaw University of Technology, 3 Noakowskiego Str., 00-664 Warsaw, Poland, Tel.: +48 22/ 660 55 84, Fax: +48 22/ 628 27 41
autor
  • Laboratoire de Physique des Métaux Synthétiques, CEA Grenoble SI3M/DRFMC, 17 des Martyrs Ave., 38054 Grenoble, France
  • Laboratoire de Physique des Métaux Synthétiques, CEA Grenoble SI3M/DRFMC, 17 des Martyrs Ave., 38054 Grenoble, France
autor
  • Institute of Atomic Energy, 05-400 Otwock-Świerk, PolandInstitute of Atomic Energy, 05-400 Otwock-Świerk, Poland
autor
  • Laboratoire de Physique des Métaux Synthétiques, CEA Grenoble SI3M/DRFMC, 17 des Martyrs Ave., 38054 Grenoble, France
Bibliografia
  • 1. Beadle PM, Nicolau YF, Banka E, Rannou P, Djurado D (1998) Controlled polymerization of aniline at sub-zero temperatures. Synth Met 95:29−45
  • 2. Cao Y, Smith P, Heeger AJ (1992) Counter-ion inducted processibility of conducting polyaniline and of conducting polyblends of polyaniline in bulk polymers. Synth Met 48:91−97
  • 3. Chaudhuri D, Kumar A, Rudra I, Sarma DD (2001) Synthesis and spectroscopic characterization of highly conducting BF3 − doped polyaniline. Adv Mater 13:1548−1551
  • 4. Genoud F, Kulszewicz-Bajer I, Bedel A, Jeandey C, Oddou J-L, Pron A (2000) Lewis acid doped polyaniline. Part II: Spectroscopic studies of emeraldine base and emeraldine hydrochloride complexation with FeCl3. Chem Mater 12:744−749
  • 5. Herber RH, Maeda Y (1980) Lattice dynamics and hyperfine interactions of layer compounds from 57Fe Mössbauer spectroscopy: FeOCl. Physica B 99:352−356
  • 6. Ichiba S, Katada M, Negita H (1972) Mössbauer effect of 119Sn in tetracarbonylcobalt derivatives of tin(IV) halides. Bull Chem Soc Jpn 45:1679−1682
  • 7. Kulszewicz-Bajer I, Pron A, Abramowicz J, Jeandey C, Oddou J-L, Sobczak JW (1999) Lewis acid doped polyaniline: preparation and spectroscopic characterization. Chem Mater 11:552−556
  • 8. MacDiarmid AG, Chiang JC, Richter AF, Epstein AJ (1987) Polyaniline: a new concept in conducting polymers. Synth Met 18:285−290
  • 9. Philip J, Mullins MA, Curran C (1968) Moessbauer spectra of some complexes of tin(IV) chloride and tin(IV) bromide with organic ligands. Inorg Chem 7:1895−1898
  • 10. Pron A, Kulszewicz I, Billaud D, Przyłuski J (1981) Organic metals. Reaction of FeCl3 with polyacetylene and poly-pphenylene. J Chem Soc, Chem Commun 15:783−784
  • 11. Pron A, Kulszewicz I, Przyłuski J, Billaud D (1983) Oxidation of polyacetylene with tin tetrachloride. Polymer Commun 24:57−59
  • 12. Pron A, Rannou P (2002) Processible conjugated polymers: from organic semiconductors to organic metals and superconductors. Prog Polym Sci 27:135−190
  • 13. Pron A, Zagórska M, Kucharski Z, Łukasiak M, Suwalski J (1982) Mössbauer spectroscopy studies of polyacetylene doped with iron chloride complexes. Mater Res Bull 17:1505−1510
  • 14. Shirakawa H, Louis EJ, MacDiarmid AG, Chiang CK, Heeger AJ (1977) Synthesis of electrically conducting organic polymers: halogen derivatives of poly(acetylene), (CH)x. J Chem Soc, Chem Commun 16:578−579
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ5-0004-0040
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