Electrical Resistivity, Magnetic Susceptibility and Thermoelectric Power of PtGa2

“…12 This phase exhibits a number of interesting properties: c-PtGa 2 has a distinct brass color 13 rare among intermetallic phases and becomes superconducting below T c = 2.1 K. 14 Its low room-temperature resistivity and high thermal stability have led to its use as a contact material for GaAs microelectronics; 15 as such, its materials properties have been extensively investigated. 14,16 However, the rich materials properties exhibited by c-PtGa 2 are accompanied by structural chemistry that has remained poorly understood since Zintl's original report. 12 Zintl notes that PtGa 2 samples turn from brass-colored to white at 150 °C upon slow cooling from 200 °C.…”

Paths to Stabilizing Electronically Aberrant Compounds: A Defect-Stabilized Polymorph and Constrained Atomic Motion in PtGa₂

“…12 This phase exhibits a number of interesting properties: c-PtGa 2 has a distinct brass color 13 rare among intermetallic phases and becomes superconducting below T c = 2.1 K. 14 Its low room-temperature resistivity and high thermal stability have led to its use as a contact material for GaAs microelectronics; 15 as such, its materials properties have been extensively investigated. 14,16 However, the rich materials properties exhibited by c-PtGa 2 are accompanied by structural chemistry that has remained poorly understood since Zintl's original report. 12 Zintl notes that PtGa 2 samples turn from brass-colored to white at 150 °C upon slow cooling from 200 °C.…”

Paths to Stabilizing Electronically Aberrant Compounds: A Defect-Stabilized Polymorph and Constrained Atomic Motion in PtGa₂