应变诱导有序 Ge(Si) 纳米线在图案化 Si(001) 衬底上。
Strain-induced ordered Ge(Si) hut wires on patterned Si (001) substrates.
机构信息
Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.
College of Materials Science and Opto-electronic Technology, University of Chinese Academy of Sciences, Beijing 100049, China.
出版信息
Nanoscale. 2023 Apr 27;15(16):7311-7317. doi: 10.1039/d2nr05238e.
Ge/Si nanowires are predicted to be a promising platform for spin and even topological qubits. While for large-scale integration of these devices, nanowires with fully controlled positions and arrangements are a prerequisite. Here, we have reported ordered Ge hut wires by multilayer heteroepitaxy on patterned Si (001) substrates. Self-assembled GeSi hut wire arrays are orderly grown inside patterned trenches with post growth surface flatness. Such embedded GeSi wires induce tensile strain on the Si surface, which results in preferential nucleation of Ge nanostructures. Ordered Ge nano-dashes, disconnected wires and continuous wires are obtained correspondingly by tuning the growth conditions. These site-controlled Ge nanowires on a flattened surface lead to the ease of fabrication and large-scale integration of nanowire quantum devices.
Ge/Si 纳米线有望成为用于旋转甚至拓扑量子比特的理想平台。然而,对于这些器件的大规模集成,具有完全受控位置和排列的纳米线是先决条件。在此,我们通过在图案化 Si(001)衬底上的多层异质外延,报道了有序的 Ge 笼状纳米线。自组装的 GeSi 笼状纳米线阵列在具有后生长表面平整度的图案化沟槽内有序生长。这种嵌入式 GeSi 线在 Si 表面上产生拉伸应变,从而导致 Ge 纳米结构的优先成核。通过调整生长条件,相应地获得有序的 Ge 纳米点、不连续的纳米线和连续的纳米线。这些在平坦表面上的位点控制的 Ge 纳米线有利于纳米线量子器件的制造和大规模集成。
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