Abstract
The homogeneity range of ternary iron indium thiospinel at 873 K was investigated. A detailed study was focused on two distinct series (y=z): 1) a previously reported charge‐balanced (In0.67+0.33y□0.33−0.33y)tetr[In2−zFez]octS4 (A1‐series; □ stands for vacancy; the abbreviations “tetr” and “oct” indicate atoms occupying tetrahedral 8a and octahedral 16d sites, respectively) and 2) a new charge‐unbalanced (In0.67+y□0.33−y)tetr[In2−zFez]octS4 (A2‐series). Fe atoms were confirmed to exclusively occupy an octahedral position in both series. An unusual reduction of the unit cell parameter with increasing Fe content is explained by differences in the ionic radii between Fe and In, as well as by an additional electrostatic attraction originating from charge imbalance (latter only in A2‐series). The studied compound is an n‐type semiconductor, and its charge carrier concentration increases or decreases for larger Fe content within the A1‐ and A2‐series, respectively. The thermal conductivity κ tot is significantly reduced upon increasing vacancy concentration, whereas the change of power factor is insufficient to drastically improve the thermoelectric figure of merit.
Highlights
Spinel compounds adopt the MgAl2O4-type structure, in which cations occupy one-eighth of tetrahedral (Wyckoff position 8a) and half of the octahedral (16d) voids within nearly cubic-close-packed arrays of anions (O2À, S2À, Se2À, or Te2À; Figure 1 a).[1]
Four series of Fe-In-S samples, described by formulas (In0.67+0.33y&0.33À0.33y)tetr[In2ÀzFez]octS4 (z = y = 0, 0.19, 0.52, 0.85, 1; A1, charge balance), (In0.67+y&0.33Ày)tetr[In2ÀzFez]octS4 (z = y = 0.1, 0.2, 0.33; as within the In0.67&0.33In2S4–Fe (A2), charge imbalance), (In)tetr[In2ÀzFez]octS4 (z = 0.53, 0.73, 0.95, 0.97; A3), and Fe0.345In2.552S4 (A4), were synthesized by long-term annealing at 873 K, followed by quenching in liquid nitrogen
Comparison of the intensities of experimental and theoretically calculated powder X-ray diffraction (PXRD) reflections, crystal structure refinements, as well as 57Fe Mçssbauer spectroscopy for the A1- and A2-samples revealed Fe atoms occupying the octahedral voids only in the studied thiospinel. Both series show an unusual decrease of the unit cell parameter with increasing Fe content
Summary
A linear decrease (Figure 2 and Figure S1a, Supporting Information) confirms the of the direct energy gap with increase of Fe content is report- samples from the series A1 (0 y = z 1), A2 (0 y = z 0.2), ed in the series,[24] which would suggest a possible enhance- and A4 to be single phase, whereas the other specimens from ment of charge carrier concentration of In0.67&0.33In2S4 by Fe- the series A2 (z = 0.33) and A3 contain secondary phases To verify this concept as well as to check the influence of Fe incorporation into the. Well as magnetic and thermoelectric properties are discussed as a function of temperature and Fe content/vacancy concentration
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
