ELECTRICAL-PROPERTIES OF THE SQUARE-ANTIPRISMATIC CHAIN COMPOUNDS M4BR4OS (M=Y, ER) AND M4TE4Z (M=NB, TA Z=SI, CR, FE, CO) Academic Article uri icon

abstract

  • The resistivities of the rare-earth metal halides, R4Br4Os (R = Y, Er) and several of the ternary tellurides M4Te4Z (M = Nb, Z = Si, Fe, Co; M = Ta, Z = Si, Cr, Co) were measured using standard four-probe ac and dc techniques at temperatures ranging from 4.2 to 350 K. The rare-earth halides R4Br4Os show semiconducting behavior: conductivity increases exponentially with temperature. Activation energies (Ea) for conduction in Y4Br4Os and Er4Br4Os are 0.16 and 0.11 eV, respectively. The resistivity of Er4Br4Os is 2 orders of magnitude smaller than that of Y4Br4Os at 273 K. The behavior of these compounds is in accord with the calculated band structure presented. The isoelectronic compounds M4Te4Si (M = Ta, Nb) behave as electronic conductors at high temperature. Ta4Te4Si shows a resistivity maximum at 160 K and below 60 K exhibits a broad metal-insulator transition. The absolute resistivity measured for Ta4-Te4Si is 2 orders of magnitude higher than the other tellurides. The analogue Nb4Te4Si shows a similar anomalous resistivity maximum near 280 K and at low temperature (~60 K) exhibits a gradual rise in resistivity that suggests a semiconducting ground state. Transition-metalcentered M4Te4Z compounds all behave as simple metals in the temperature range 4.2-300 K; metal-insulator transitions are not seen at temperatures greater than 4.2 K. Nb4Te4Fe shows a small resistivity anomaly near 25 K. 1994, American Chemical Society. All rights reserved.

published proceedings

  • CHEMISTRY OF MATERIALS

author list (cited authors)

  • AHN, K. S., HUGHBANKS, T., RATHNAYAKA, K., & NAUGLE, D. G.

citation count

  • 26

complete list of authors

  • AHN, KS||HUGHBANKS, T||RATHNAYAKA, KDD||NAUGLE, DG

publication date

  • January 1994