Copper ion dynamics and phase segregation in Cu-rich tetrahedrite: an NMR study

Abstract

63Cu NMR measurements are reported for the Cu-rich phase of Cu12+xSb4S13 (x 2) and compared to Cu12Sb4S13. We identify the NMR signatures of the phase segregation into Cu-poor (x ≈ 0) and Cu-rich (x 2) phases, with the metal-insulator transition observed in Cu12Sb4S13 suppressed in the Cu-rich phase. Based on NMR T1 and T2 measurements, the results demonstrate Cu-ion hopping below room temperature with an activation energy of 150 meV for the Cu-rich phase, consistent with superionic behavior. The NMR results also demonstrate the effects of Cu-ion mobility in the Cu12Sb4S13 phase, but with a larger activation barrier. We identify a small difference in NMR Knight shift for the metallic phase of Cu12Sb4S13, compared to the Cu-rich phase, and when compared to DFT calculations the results indicate a mix of hyperfine contributions to the metallic shift.