Roy Arrieta scite author profile

Polar intermetallics are an intriguing class of compounds with complex relationships between composition and structure that are not fully understood. This work reports a systematic study of the underexplored ternary composition space RE−Au−Tt (RE = La, Ce, Pr, Nd; Tt = Ge, Pb) to expand our knowledge of the intriguing chemistry and diversity achievable with these metallic constituents. These composition spaces are particularly interesting because of the potential to find Au-bearing, highly polar intermetallic compounds. The elements were first reacted through arc welding under an inert atmosphere, followed by annealing at 850 °C. X-ray diffraction of the products identified seven unreported compounds ranging from the simple NaTl-type compounds La 1.5 Au 2 Pb 0.5 and Nd 2−x Au 2 Pb x to the more structurally complex La 5 AuPb 3 in the Hf 5 CuSn 3 -type structure and Pu 3 Pd 4 -type RE 3 Au 3 Ge (RE = La, Ce, Pr, Nd). Firstprinciples electronic structure calculations investigate the combination of Fermi surface−Brillouin zone interactions, electrostatic interactions, and delocalized metallic bonding that contributes to the formation of these phases. These calculations show that a mixture of electrostatic and metallic bonding plays a dominant role in these phases. The RE−Au−Tt composition space remains full of potential for discovering materials with relevant magnetic and quantum properties, provided the crystal chemistry can be comprehended.

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Synthesis of high surface area transition metal sponges and their catalytic properties

Islam

Rosales

Saenz-Arana

et al. 2019

New J. Chem.

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Roy Arrieta

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From simple to complex crystal chemistry in the RE–Au–Tt systems (RE = La, Ce, Pr, Nd; Tt = Ge, Pb)

Synthesis of high surface area transition metal sponges and their catalytic properties

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