氧化锌渗透的生物纳米多孔材料的电子和 X 射线纳米尺度显微镜的对比增强。

Contrast enhancement of biological nanoporous materials with zinc oxide infiltration for electron and X-ray nanoscale microscopy.

机构信息

Argonne National Laboratory, Center for Nanoscale Materials, Argonne, 60543, USA.

University of Chicago, Department of Neurobiology, Chicago, 60637, USA.

出版信息

Sci Rep. 2017 Jul 19;7(1):5879. doi: 10.1038/s41598-017-05690-6.

DOI:10.1038/s41598-017-05690-6

PMID:28724918

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5517423/

Abstract

We show that using infiltration of ZnO metal oxide can be useful for high resolution imaging of biological samples in electron and X-ray microscopy. The method is compatible with standard fixation techniques that leave the sample dry, such as finishing with super critical CO drying, or simple vacuum drying up to 95 °C. We demonstrate this technique can be applied on tooth and brain tissue samples. We also show that high resolution X-ray tomography can be performed on biological systems using Zn K edge (1s) absorption to enhance internal structures, and obtained the first nanoscale 10 KeV X-ray absorption images of the interior regions of a tooth.

摘要

我们表明，在电子和 X 射线显微镜中，使用 ZnO 金属氧化物的渗透可以有效地对生物样本进行高分辨率成像。该方法与标准固定技术兼容，这些技术会使样本干燥，例如使用超临界 CO2 干燥完成，或在 95°C 以下简单地进行真空干燥。我们证明该技术可以应用于牙齿和脑组织样本。我们还表明，使用 Zn K 边（1s）吸收来增强内部结构，可以对生物系统进行高分辨率 X 射线层析成像，并获得牙齿内部区域的第一个纳米级 10keV X 射线吸收图像。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0482/5517423/c4469264bc6f/41598_2017_5690_Fig1_HTML.jpg

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氧化锌渗透的生物纳米多孔材料的电子和 X 射线纳米尺度显微镜的对比增强。

Contrast enhancement of biological nanoporous materials with zinc oxide infiltration for electron and X-ray nanoscale microscopy.

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