Azimi S, Song J, Li C J, Mathew S, Breese M B H, Venkatesan T
Centre for Ion Beam Applications (CIBA), Department of Physics, National University of Singapore, Singapore 11754222. Singapore Synchrotron Light Source (SSLS), National University of Singapore, 5 Research Link, Singapore 117603.
Nanotechnology. 2014 Nov 7;25(44):445301. doi: 10.1088/0957-4484/25/44/445301. Epub 2014 Oct 10.
We have developed a process to fabricate low-stress, fully crystalline silicon nanostencils, based on ion irradiation and the electrochemical anodization of p-type silicon. These nanostencils can be patterned with arbitrary feature shapes with openings hundreds of micrometers wide connected to long channels of less than 100 nm in width. These nanostencils have been used to deposit (2.5 μm- to 150 nm-wide) lines of LaAlO3 (LAO) on a SrTiO3 (STO) substrate, forming a confined electron layer at the interface arising from oxygen vacancies on the STO surface. Electrical characterization of the transport properties of the resulting LAO/STO nanowires exhibited a large electric field effect through back-gating using the STO as the dielectric, demonstrating electron confinement. Stencil lithography incorporating multiple feature sizes in a single mask shows great potential for future development of oxide electronics.
我们基于离子辐照和p型硅的电化学阳极氧化,开发了一种制造低应力、完全结晶的硅纳米模板的工艺。这些纳米模板可以被图案化为具有任意特征形状,其开口宽度达数百微米,连接着宽度小于100 nm的长通道。这些纳米模板已被用于在SrTiO3(STO)衬底上沉积(宽度为2.5μm至150nm)的LaAlO3(LAO)线,在STO表面的氧空位所产生的界面处形成一个受限电子层。对所得LAO/STO纳米线的传输特性进行电学表征,通过以STO作为电介质进行背栅极操作,显示出很大的电场效应,证明了电子的受限。在单个掩膜中纳入多种特征尺寸的模板光刻技术在氧化物电子学的未来发展中显示出巨大潜力。
