K2Hg2Te3: Straightforward
and Large-Scale Mercury-Flux Synthesis of a Small-Band-Gap Photoconducting
Material
Version 2 2019-03-25, 19:00
Version 1 2018-09-25, 11:41
Posted on 2019-03-25 - 19:00
K2Hg2Te3 was synthesized via a mercury-flux synthesis pathway. Single-crystal
and powder X-ray diffraction reveal the compound to be isostructural
to its lighter congener K2Hg2Se3,
yet exhibiting enhanced photoconductivity and electrical conductivity
of (several) orders of magnitude and a decreased thermal conductivity
and band gap. In this report, we elaborate on the synthesis and properties
of the novel ternary compound.
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Thiele, Günther; Bron, Philipp; Lippert, Sina; Nietschke, Frederik; Oeckler, Oliver; Koch, Martin; et al. (2018). K2Hg2Te3: Straightforward
and Large-Scale Mercury-Flux Synthesis of a Small-Band-Gap Photoconducting
Material. ACS Publications. Collection. https://doi.org/10.1021/acs.inorgchem.8b02310
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AUTHORS (8)
GT
Günther Thiele
PB
Philipp Bron
SL
Sina Lippert
FN
Frederik Nietschke
OO
Oliver Oeckler
MK
Martin Koch
BR
Bernhard Roling
SD
Stefanie Dehnen