We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Ionic Modulation at the LaAlO<sub>3</sub>/KTaO<sub>3</sub> Interface for Extreme High‐Mobility Two‐Dimensional Electron Gas.
- Authors
Yan, Hong; Zeng, Shengwei; Rubi, Km; Omar, Ganesh Ji; Zhang, Zhaoting; Goiran, Michel; Escoffier, Walter; Ariando, Ariando
- Abstract
Due to the coexistence of many emergent phenomena, including 2D superconductivity and a large Rashba spin‐orbit coupling, 5d transition metal oxides‐based two‐dimensional electron systems (2DESs) have been prospected as one of the potential intrants for modern electronics. However, despite the lighter electron mass, the mobility of carriers, a key requisite for high‐performance devices, in 5d‐oxides devices remains far behind their 3d‐oxides analogs. The carriers' mobility in these oxides is significantly hampered by the inevitable presence of defects. Here, very high mobility (≈22 650 cm2 V−1 s−1) of 5d‐2DES confined at the LaAlO3/KTaO3 interface is reported. The high mobility, which is beyond the values observed in SrTiO3 2DESs in the same carrier‐density range, is achieved using the ionic‐liquid gating at room temperature. The authors postulate that the ionic‐liquid gating affects the oxygen vacancies and efficiently reduces any disorder at the interface. Investigating density and mobility in a broad range of back‐gate voltage, the authors reveal that the mobility follows the power‐law µ ∝ n1.2, indicating the very high quality of ionic‐liquid‐gated LaAlO3/KTaO3 devices, consistent with the postulate. Furthermore, the analysis of the quantum oscillations confirms that the high‐mobility electrons occupy the electronic sub‐bands emerging from the Ta:5d orbitals of KTaO3.
- Subjects
TWO-dimensional electron gas; ELECTRON gas; CHARGE carrier mobility; SPIN-orbit interactions; TRANSITION metals; ELECTRIC field effects
- Publication
Advanced Materials Interfaces, 2022, Vol 9, Issue 35, p1
- ISSN
2196-7350
- Publication type
Article
- DOI
10.1002/admi.202201633