Electrical characterizations of silver chalcogenide glasses

We present a study of the electrical properties of silver chalcogenide glasses ‘40AgI’–30Ag2S–30GeS2, 45AgI–27.5Ag2S–27.5GeS2 and 50AgI–25Ag2S–25GeS2 in the 77–400 K temperature and the 20 Hz to 1 MHz frequency ranges. In our temperature range, a large variation of the real permittivity is observed, in relation with an electrodes polarization effect. As the amount of silver iodide increases in the Ag2S–GeS2 matrix, the glass transition temperature and the activation energies decrease, the electrical conductivity increases and reaches 4 Ω−1 m−1 at room temperature for the glass with 50% AgI. The study of the conductivity shows a behavior due to a high ionic conductivity, thermally activated with Edc = 0.21 eV, E1 = 0.075 eV (40AgI–30Ag2S–30GeS2, 45AgI–27.5Ag2S–27.5GeS2), Edc = 0.17 eV, E1 = 0.055 eV for 50AgI–25Ag2S–25GeS2. For these glasses, we have seen three conductivity regimes. The first two terms are thermally activated. The third term cannot be actually clearly identified because either it is thermally activated with a very low activation energy and frequency dependent, or it is almost non-thermally activated and frequency dependent.