摘要： We report a comparative study between two kinds of polyaniline, PANI-H₃PO₄ and PANI-C₄H₆O₆. We have measured the temperature dependence of the dc-conductivity σ_dc(T) and magnetic susceptibility χ_T(T). The structure of polyaniline was characterized by F ourier transform infrared technique, electron-spin-resonance and X-ray diffraction. Polyanil ine synthesized with phosphoric and tartaric acids leads to high magnetic suscep tibility χ_T(at T=295 K)≈10^-4 emu/mol.2rings. The dc-conductivity of both kinds of PANI shows a semiconductor behavior and follows the quasi one-dimensional variable-range-hopping model. A compa rison of the magnetic susceptibility shows greater electron localization in PANI-C₄H₆O₆, which is in agreement with the lower conductivity at room temper ature for PANI-C₄H₆O₆.

Abstract: We report a comparative study between two kinds of polyaniline, PANI-H₃PO₄ and PANI-C₄H₆O₆. We have measured the temperature dependence of the dc-conductivity $\sigma$_dc(T) and magnetic susceptibility $\chi$_T(T). The structure of polyaniline was characterized by F ourier transform infrared technique, electron-spin-resonance and X-ray diffraction. Polyanil ine synthesized with phosphoric and tartaric acids leads to high magnetic suscep tibility $\chi$_T (at T=295 K)≈10^-4 emu/mol.2rings. The dc-conductivity of both kinds of PANI shows a semiconductor behavior and follows the quasi one-dimensional variable-range-hopping model. A compa rison of the magnetic susceptibility shows greater electron localization in PANI-C₄H₆O₆, which is in agreement with the lower conductivity at room temper ature for PANI-C₄H₆O₆.

中图分类号:  (Conducting polymers)

• 82.35.Cd

72.80.Le (Polymers; organic compounds (including organic semiconductors)) 75.30.Cr (Saturation moments and magnetic susceptibilities) 78.30.Jw (Organic compounds, polymers) 81.05.Lg (Polymers and plastics; rubber; synthetic and natural fibers; organometallic and organic materials)