Weld-free mounting of lamellae for electrical biasing operando TEM

IF 2.1 3区 工程技术 Q2 MICROSCOPY
Oscar Recalde-Benitez , Yevheniy Pivak , Tianshu Jiang , Robert Winkler , Alexander Zintler , Esmaeil Adabifiroozjaei , Philipp Komissinskiy , Lambert Alff , William A. Hubbard , H. Hugo Perez-Garza , Leopoldo Molina-Luna
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Abstract

Recent advances in microelectromechanical systems (MEMS)-based substrates and sample holders for in situ transmission electron microscopy (TEM) are currently enabling exciting new opportunities for the nanoscale investigation of materials and devices. The ability to perform electrical testing while simultaneously capturing the wide spectrum of signals detectable in a TEM, including structural, chemical, and even electronic contrast, represents a significant milestone in the realm of nanoelectronics. In situ studies hold particular promise for the development of Metal-Insulator-Metal (MIM) devices for use in next-generation computing. However, achieving successful device operation in the TEM typically necessitates meticulous sample preparation involving focused ion beam (FIB) systems. Conducting contamination introduced during the FIB thinning process and subsequent attachment of the sample onto a MEMS-based chip remains a formidable challenge. This article delineates an improved FIB-based sample preparation methodology that results in good electrical connectivity and operational functionality across various MIM devices. To exemplify the efficacy of the sample preparation technique, we demonstrate preparation of a clean cross section extracted from a Au/Pt/BaSrTiO3/SrMoO3 tunable capacitor (varactor). The FIB-prepared TEM lamella mounted on a MEMS-based chip showed current levels in the tens of picoamperes range at 0.1 V. Furthermore, the electric response and current density of the TEM lamella device closely align with macro-scale devices. These samples exhibit comparable current densities to their macro-sized counterparts thus validating the sample preparation process and confirming device connectivity. The simultaneous operation and TEM characterization of electronic devices enabled by this process enables direct correlation between device structure and function, which could prove pivotal in the development of new MIM systems.

用于电偏压操作型 TEM 的无焊接安装薄片
基于微机电系统(MEMS)的原位透射电子显微镜(TEM)基底和样品架的最新进展为材料和器件的纳米级研究带来了令人兴奋的新机遇。在进行电气测试的同时,还能捕捉 TEM 中可检测到的各种信号,包括结构、化学甚至电子对比,这是纳米电子学领域的一个重要里程碑。原位研究为开发用于下一代计算的金属-绝缘体-金属(MIM)器件带来了特别的希望。然而,要在 TEM 中成功实现器件操作,通常需要使用聚焦离子束 (FIB) 系统进行细致的样品制备。在 FIB 薄化过程中引入的传导污染以及随后将样品附着到基于 MEMS 的芯片上,仍然是一项艰巨的挑战。本文介绍了一种改进的基于 FIB 的样品制备方法,该方法可在各种 MIM 器件上实现良好的电气连接和操作功能。为了体现样品制备技术的功效,我们演示了从 Au/Pt/BaSrTiO3/SrMoO3 可调电容器(变容器)中提取的清洁横截面的制备。FIB 制备的 TEM 片安装在基于 MEMS 的芯片上,在 0.1 V 电压下显示出几十皮安的电流水平。此外,TEM薄片器件的电响应和电流密度与宏观尺度器件非常接近。这些样品的电流密度与宏观尺寸的样品相当,从而验证了样品制备过程并确认了器件的连接性。该工艺可同时对电子器件进行操作和 TEM 表征,从而实现器件结构与功能之间的直接关联,这在新型 MIM 系统的开发中将起到关键作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Ultramicroscopy
Ultramicroscopy 工程技术-显微镜技术
CiteScore
4.60
自引率
13.60%
发文量
117
审稿时长
5.3 months
期刊介绍: Ultramicroscopy is an established journal that provides a forum for the publication of original research papers, invited reviews and rapid communications. The scope of Ultramicroscopy is to describe advances in instrumentation, methods and theory related to all modes of microscopical imaging, diffraction and spectroscopy in the life and physical sciences.
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