Ionic-to-Electronic Conductivity Crossover in CdTe-AgI-As2Te3 Glasses An 110mAg Tracer Diffusion Study
Résumé
Conductivity isotherms of (CdTe) (AgI)(AsTe) glasses (0.0 ≤ x ≤ 0.15) reveal a nonmonotonic behavior with increasing CdTe content reminiscent of mixed cation effect in oxide and chalcogenide glasses. Nevertheless, the apparent similarity appears to be partly incorrect. Using Ag tracer diffusion measurements, we show that semiconducting CdTe additions produce a dual effect: (i) decreasing the Ag ion transport by a factor of ≈200 with a simultaneous increase of the diffusion activation energy and (ii) increasing the electronic conductivity by 1.5 orders of magnitude. Consequently, the conductivity minimum at x = 0.05 reflects an ionic-to-electronic transport crossover; the silver-ion transport number decreases by 3 orders of magnitude with increasing x.
Mots clés
Chalcogenide glass
Diffusion
Semiconducting cadmium telluride
Semiconducting silver compounds
II-VI semiconductors
Glass
Electric conductivity
Metal ions
Silver halides
Orders of magnitude
Tracer diffusion
Electronic transport
Electronic conductivity
Diffusion activation energy
Semiconducting tellurium compounds
Activation energy
Cadmium telluride
Ion transports
Nonmonotonic behaviors
Domaines
Matériaux
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Kassem et al_2018_Ionic-to-Electronic Conductivity Crossover in CdTe-AgI-As2Te3 Glasses.pdf (1.28 Mo)
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