Your search keyword '"Yedra, L."' showing total 2 results

1. EEL spectroscopic tomography: towards a new dimension in nanomaterials analysis.

Author

Yedra L, Eljarrat A, Arenal R, Pellicer E, Cabo M, López-Ortega A, Estrader M, Sort J, Baró MD, Estradé S, and Peiró F

Abstract

Electron tomography is a widely spread technique for recovering the three dimensional (3D) shape of nanostructured materials. Using a spectroscopic signal to achieve a reconstruction adds a fourth chemical dimension to the 3D structure. Up to date, energy filtering of the images in the transmission electron microscope (EFTEM) is the usual spectroscopic method even if most of the information in the spectrum is lost. Unlike EFTEM tomography, the use of electron energy-loss spectroscopy (EELS) spectrum images (SI) for tomographic reconstruction retains all chemical information, and the possibilities of this new approach still remain to be fully exploited. In this article we prove the feasibility of EEL spectroscopic tomography at low voltages (80 kV) and short acquisition times from data acquired using an aberration corrected instrument and data treatment by Multivariate Analysis (MVA), applied to Fe(x)Co((3-x))O(4)@Co(3)O(4) mesoporous materials. This approach provides a new scope into materials; the recovery of full EELS signal in 3D., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

2. A new approach for 3D reconstruction from bright field TEM imaging: beam precession assisted electron tomography.

Author

Rebled JM, Yedra L, Estradé S, Portillo J, and Peiró F

Subjects

Algorithms, Artifacts, Equipment Design instrumentation, Equipment Design methods, Microscopy, Electron, Transmission instrumentation, Electron Microscope Tomography methods, Image Processing, Computer-Assisted instrumentation, Image Processing, Computer-Assisted methods, Microscopy, Electron, Transmission methods

Abstract

The successful combination of electron beam precession and bright field electron tomography for 3D reconstruction is reported. Beam precession is demonstrated to be a powerful technique to reduce the contrast artifacts due to diffraction and curvature in thin foils. Taking advantage of these benefits, Precession assisted electron tomography has been applied to reconstruct the morphology of Sn precipitates embedded in an Al matrix, from a tilt series acquired in a range from +49° to -61° at intervals of 2° and with a precession angle of 0.6° in bright field mode. The combination of electron tomography and beam precession in conventional TEM mode is proposed as an alternative procedure to obtain 3D reconstructions of nano-objects without a scanning system or a high angle annular dark field detector., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011