通过三维电子衍射断层扫描进行相鉴定和结构解析：钆磷酸盐纳米棒

Phase identification and structure solution by three-dimensional electron diffraction tomography: Gd-phosphate nanorods.

作者信息

Mayence Arnaud, Navarro Julien R G, Ma Yanhang, Terasaki Osamu, Bergström Lennart, Oleynikov Peter

机构信息

Arrhenius Laboratory, Department of Materials and Environmental Chemistry, Stockholm University , Stockholm S-106 91, Sweden.

出版信息

Inorg Chem. 2014 May 19;53(10):5067-72. doi: 10.1021/ic500056r. Epub 2014 Apr 25.

DOI:10.1021/ic500056r

PMID:24766566

Abstract

Hydrothermal synthesis of GdPO4 in the presence of poly(methacrylic acid) yields nanorods with a diameter of 15 nm and an aspect ratio of 20. Powder X-ray diffraction patterns showed that the GdPO4 nanorods display peaks characteristics for both monoclinic and hexagonal structures. Three-dimensional electron diffraction tomography (3D EDT) was used to determine the structures ab initio on the basis of reciprocal volume reconstruction of electron diffraction data sets collected from single nanorods. The crystal structure of the monoclinic form was shown to be P21/n, corroborating previous work. We were able to solve the 3D structure of the hexagonal P6222 form, which has not been reported previously. Our work shows that 3D EDT is a powerful method that can be used for solving structures of single nanocrystals.

摘要

在聚（甲基丙烯酸）存在的情况下水热合成磷酸钆，得到直径为15纳米、长径比为20的纳米棒。粉末X射线衍射图谱表明，磷酸钆纳米棒显示出单斜晶和六方晶结构的特征峰。三维电子衍射断层扫描（3D EDT）用于基于从单个纳米棒收集的电子衍射数据集的倒易体积重建从头确定结构。单斜晶型的晶体结构显示为P21/n，证实了先前的工作。我们能够解析六方P6222型的三维结构，该结构此前尚未见报道。我们的工作表明，3D EDT是一种可用于解析单个纳米晶体结构的强大方法。

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通过三维电子衍射断层扫描进行相鉴定和结构解析：钆磷酸盐纳米棒

Phase identification and structure solution by three-dimensional electron diffraction tomography: Gd-phosphate nanorods.

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