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- Title
Unraveling the stacking structure in tubular halloysite using a new TEM with computer-assisted minimal-dose system.
- Authors
Kogure, Toshihiro; Mori, Kiyofumi; Kimura, Yoshihide; Takai, Yoshizo
- Abstract
The stacking structure of tubular halloysite, which is easily damaged by electron-beam radiation, has been investigated by high-resolution transmission electron microscopy (HRTEM) using a new TEM with a computer-assisted minimal-dose system. The new TEM is equipped with a high-speed beam blanker by which the specimen is beam-irradiated only during image acquisition by the recording media. Using a few images taken by a CCD camera with a short exposure time (0.04 s), TEM operations such as area search and brightness adjustment are completed by the computer-assisted system, which can decrease the electron dose delivered before recording final HRTEM images by a factor of 100. The specimen used was halloysite (7 Å) with a tubular morphology from Eureka, Nevada, U.S.A. HRTEM images were taken with the incident electron beam perpendicular to the tube axis, which is parallel to the Yi-axes of the dioctahedral 1:1 layer of halloysite. Lattice fringes in halloysite were almost extinguished with an electron dose of ~2000 electrons (e)/Ų, and it was almost impossible to record crossed lattice fringes without radiation damage using conventional TEMs. By contrast, HRTEM images of high quality and without damage could be recorded with ~400 e/Ų in the new TEM system. The stacking structures recorded in such images were generally disordered, but ordered packets with one-layer periodicity were often observed. Among them, a stacking sequence that has never previously been observed in kaolinite was identified.
- Subjects
HALLOYSITE; ELECTRON beam research; IRRADIATION; KAOLINITE; ELECTRON emission research; TRANSMISSION electron microscopy
- Publication
American Mineralogist, 2011, Vol 96, Issue 11, p1776
- ISSN
0003-004X
- Publication type
Article
- DOI
10.2138/am.2011.3907