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引用次数: 0
摘要
三维电子衍射(3D ED)已成为确定亚微米(纳米)尺寸晶体结构的有效技术。在这项工作中,利用柱后能量滤波器,在 STEM 模式和 TEM 模式[(S)TEM 表示(扫描)透射电子显微镜]下实现了能量过滤三维电子衍射。文中介绍了在加坦成像滤光片上进行能量过滤三维电泳的设置。该技术和方案提高了能量滤波三维电离柱后能量滤波器的可用性,许多 TEM 实验室都有这种滤波器。此外,还提出了一种在 STEM 模式下使用高角度环形暗场成像的晶体跟踪方法。这种方法使用户能够在监测晶体位置的同时收集三维 ED 数据,从而在不放弃任何衍射框架或施加额外电子剂量的情况下获得更大的倾斜范围。为了比较能量滤波和未滤波三维电离辐射数据集之间的差异,我们详细研究了三种众所周知的无机结晶样品。对于这些样品,与未经过滤的数据集相比,能量过滤数据集的最终 R 1 值提高了 10-30%,结构在化学上也更加合理。此外,还讨论了改善的可能原因。
Improving data quality for three-dimensional electron diffraction by a post-column energy filter and a new crystal tracking method.
Three-dimensional electron diffraction (3D ED) has become an effective technique to determine the structures of submicrometre- (nanometre-)sized crystals. In this work, energy-filtered 3D ED was implemented using a post-column energy filter in both STEM mode and TEM mode [(S)TEM denoting (scanning) transmission electron microscope]. The setups for performing energy-filtered 3D ED on a Gatan imaging filter are described. The technique and protocol improve the accessibility of energy-filtered 3D ED post-column energy filters, which are available in many TEM laboratories. In addition, a crystal tracking method in STEM mode using high-angle annular dark-field imaging is proposed. This method enables the user to monitor the crystal position while collecting 3D ED data at the same time, allowing a larger tilt range without foregoing any diffraction frames or imposing extra electron dose. In order to compare the differences between energy-filtered and unfiltered 3D ED data sets, three well known crystallized inorganic samples have been studied in detail. For these samples, the final R1 values improved by 10-30% for the energy-filtered data sets compared with the unfiltered data sets, and the structures became more chemically reasonable. Possible reasons for improvement are also discussed.
期刊介绍:
Many research topics in condensed matter research, materials science and the life sciences make use of crystallographic methods to study crystalline and non-crystalline matter with neutrons, X-rays and electrons. Articles published in the Journal of Applied Crystallography focus on these methods and their use in identifying structural and diffusion-controlled phase transformations, structure-property relationships, structural changes of defects, interfaces and surfaces, etc. Developments of instrumentation and crystallographic apparatus, theory and interpretation, numerical analysis and other related subjects are also covered. The journal is the primary place where crystallographic computer program information is published.
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