Department of Chemistry and Chemical Biology, Harvard University, Cambridge, Massachusetts 02138, United States.
Nano Lett. 2012 Sep 12;12(9):4775-83. doi: 10.1021/nl302214x. Epub 2012 Aug 28.
The formation of a two-dimensional electron gas (2-DEG) using SrTiO(3) (STO)-based heterostructures provides promising opportunities in oxide electronics. We realized the formation of 2-DEG using several amorphous layers grown by the atomic layer deposition (ALD) technique at 300 °C which is a process compatible with mass production and thereby can provide the realization of potential applications. We found that the amorphous LaAlO(3) (LAO) layer grown by the ALD process can generate 2-DEG (∼1 × 10(13)/cm(2)) with an electron mobility of 4-5 cm(2)/V·s. A much higher electron mobility was observed at lower temperatures. More remarkably, amorphous YAlO(3) (YAO) and Al(2)O(3) layers, which are not polar-perovskite-structured oxides, can create 2-DEG as well. 2-DEG was created by means of the important role of trimethylaluminum, Me(3)Al, as a reducing agent for STO during LAO and YAO ALD as well as the Al(2)O(3) ALD process at 300 °C. The deposited oxide layer also plays an essential role as a catalyst that enables Me(3)Al to reduce the STO. The electrons were localized very near to the STO surface, and the source of carriers was explained based on the oxygen vacancies generated in the STO substrate.
使用基于 SrTiO3(STO)的异质结构形成二维电子气(2-DEG)为氧化物电子学提供了有前途的机会。我们使用原子层沉积(ALD)技术在 300°C 下生长的几种非晶层实现了 2-DEG 的形成,该过程与大规模生产兼容,从而可以提供潜在应用的实现。我们发现,通过 ALD 工艺生长的非晶 LaAlO3(LAO)层可以产生 2-DEG(约 1×10^13/cm^2),电子迁移率为 4-5 cm^2/V·s。在较低温度下观察到更高的电子迁移率。更值得注意的是,非晶 YAlO3(YAO)和 Al2O3 层也可以形成 2-DEG,它们不是极性钙钛矿结构氧化物。2-DEG 是通过三甲基铝(Me3Al)在 LAO 和 YAO ALD 以及 300°C 下的 Al2O3 ALD 过程中作为 STO 的还原剂的重要作用而产生的。沉积的氧化物层也作为催化剂发挥着重要作用,使 Me3Al 能够还原 STO。电子非常靠近 STO 表面定位,载流子的来源基于 STO 衬底中产生的氧空位来解释。
