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通过原子金属灯丝形成实现一纳米分辨率的电探针。

One nanometer resolution electrical probe via atomic metal filament formation.

机构信息

Department of Applied Physics, Stanford University, Stanford, California 94305, USA.

出版信息

Nano Lett. 2011 Jan 12;11(1):231-5. doi: 10.1021/nl103603v. Epub 2010 Dec 1.

Abstract

Scanning probe microscopy has been widely used to investigate various interactions in microscopic nature. Particularly, conductive atomic force microscopy (C-AFM) can provide local electronic signals conveniently, but the probe resolution of C-AFM has been limited by the tip geometry. Here, we improve the probe resolution greatly by forming an atomic-size metallic filament on a commercial C-AFM tip. We demonstrate ∼1 nm lateral resolution in C-AFM using the metal filament tip. The filament tip is mechanically robust and electrically stable in repeated scans under ambient conditions since it is imbedded in a stable insulating matrix. The formation of the atomic filament is highly controllable and reproducible and can be easily integrated to existing AFM tip technologies to produce the next generation of high-resolution electrical and other scanning probes.

摘要

扫描探针显微镜已广泛用于研究微观自然中的各种相互作用。特别是,导电原子力显微镜(C-AFM)可以方便地提供局部电子信号,但 C-AFM 的探针分辨率受到尖端几何形状的限制。在这里,我们通过在商业 C-AFM 尖端上形成原子尺寸的金属细丝,大大提高了探针的分辨率。我们使用金属细丝尖端在 C-AFM 中证明了约 1nm 的横向分辨率。由于嵌入在稳定的绝缘基质中,细丝尖端在环境条件下的重复扫描中具有机械强度和电稳定性。原子丝的形成具有高度的可控性和可重复性,并且可以很容易地集成到现有的 AFM 尖端技术中,以生产下一代高分辨率的电气和其他扫描探针。

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