Journal
MATERIALS RESEARCH BULLETIN
Volume 167, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.materresbull.2023.112434
Keywords
Chalcogenides; Electrical resistivity; Degenerate semiconductor; Band gap
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To investigate the effect of cation disorders on the thermoelectric performance of the Cu3SbSe4 system, copper content in Cu3+xSbSe4 (x = -0.06, -0.04, 0, 0.04, 0.06, and 0.08) system was adjusted via solid-state reaction route. The intentional deviations from stoichiometry successfully enhanced electrical transport and reduced phonon transport simultaneously. The self-doping effect induced by non-stoichiometry provided acceptor levels, thereby increasing electrical conductivity. Modulating the Fermi level within the valence band allowed for the realization of a high power factor and considerable reduction in thermal conductivity, ultimately enhancing the figure of merit of the Cu3SbSe4 system.
To investigate the effect of cation disorders to modulate thermoelectric performance of Cu3SbSe4 system, we attempted to tune copper content in Cu3+xSbSe4 (x = -0.06, -0.04, 0, 0.04, 0.06, and 0.08) system synthesized via solid-state reaction route. Considering the asymmetry in charge and phonon transport properties, intentional deviations from the proper stoichiometry successfully enhance the electrical transport and reduce the phonon transport simultaneously. The self-doping effect induced by the off stoichiometry in Cu3SbSe4 provides acceptor levels, thereby elevating the electrical conductivity. Modulating the Fermi level within the valence band, we could realize a power factor to the highest value of -232 & mu;W/mK2 for the sample with x = -0.06 at 210 K. Considerable reduction in thermal conductivity is the key factor in enhancing the figure of merit to a maximum value of -0.033 (at 350 K) for the sample with x = 0.06, which about three times higher than that of the pristine sample. The present study demonstrates that non-stoichiometry plays a substantial role in modulating the thermoelectric transport of the Cu3SbSe4 system.
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