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Title: Discovery of FeBi 2

Journal Article · · ACS Central Science
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Recent advances in high-pressure techniques offer chemists access to vast regions of uncharted synthetic phase space, expanding our experimental reach to pressures comparable to the core of the Earth. These newfound capabilities enable us to revisit simple binary systems in search of compounds that for decades have remained elusive. The most tantalizing of these targets are systems in which the two elements in question do not interact even as molten liquids—so-called immiscible systems. As a prominent example, immiscibility between iron and bismuth is so severe that no material containing Fe–Bi bonds is known to exist. The elusiveness of Fe–Bi bonds has a myriad of consequences; crucially, it precludes completing the iron pnictide superconductor series. Herein we report the first iron–bismuth binary compound, FeBi2, featuring the first Fe–Bi bond in the solid state. We employed geologically relevant pressures, similar to the core of Mars, to access FeBi2, which we synthesized at 30 GPa and 1500 K. The compound crystallizes in the Al2Cu structure type (space group I4/mcm) with a = 6.3121(3) Å and c = 5.4211(4) Å. The new binary intermetallic phase persists from its formation pressure of 30 GPa down to 3 GPa. The existence of this phase at low pressures suggests that it might be quenchable to ambient pressure at low temperatures. These results offer a pathway toward the realization of new exotic materials.

Research Organization:
Argonne National Laboratory (ANL), Argonne, IL (United States). Advanced Photon Source (APS)
Sponsoring Organization:
USDOE National Nuclear Security Administration (NNSA)
OSTI ID:
1338993
Journal Information:
ACS Central Science, Vol. 2, Issue 11; ISSN 2374-7943
Publisher:
American Chemical Society (ACS)
Country of Publication:
United States
Language:
ENGLISH

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Cited By (8)

Dense superconducting phases of copper-bismuth at high pressure journal August 2017
[Co@Sn 6 Sb 6 ] 3− : Ein endohedraler 12‐Atom‐Cluster mit einem nicht‐zentrierten inneren Atom journal October 2018
[Co@Sn 6 Sb 6 ] 3− : An Off-Center Endohedral 12-Vertex Cluster journal October 2018
Discovery of new materials using combinatorial synthesis and high-throughput characterization of thin-film materials libraries combined with computational methods journal July 2019
Discovery of Cu 3 Pb journal September 2018
High-pressure discovery of β-NiBi journal January 2017
Discovery of Cu 3 Pb journal September 2018
A Pressurized Exploration of Intermetallic Chemistry journal November 2016

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Related Subjects

37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY