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1.
Ultramicroscopy ; 106(2): 66-74, 2006 Jan.
Artigo em Inglês | MEDLINE | ID: mdl-16046067

RESUMO

A practical, offline method for experimental detection and correction for projector lens distortion in the transmission electron microscope (TEM) operating in high-resolution (HR) and selected area electron diffraction (SAED) modes is described. Typical TEM works show that, in the simplest case, the distortion transforms on the recording device, which would be a circle into an ellipse. The first goal of the procedure described here is to determine the elongation and orientation of the ellipse. The second goal is to correct for the distortion using an ordinary graphic program. The same experimental data set may also be used to determine the actual microscope magnification and the rotation between SAED patterns and HR images. The procedure may be helpful in several quantitative applications of electron diffraction and HR imaging, for instance while performing accurate lattice parameter determination, or while determining possible metrical deviations (cell edges and angles) from a given symmetry.

2.
J Colloid Interface Sci ; 298(1): 487-90, 2006 Jun 01.
Artigo em Inglês | MEDLINE | ID: mdl-16387322

RESUMO

Calcium sulphate dihydrate nanocrystals of 25-100 nm width have been synthesized in 100% purity and yield by means of a method--the cryo-vacuum process--consisting of rapid freezing of quasi-saturated solutions and subsequent vacuum assisted sublimation of water. Transmission electron microscopy reveals both curled nano-lamellae and smaller, irregular particles; electron diffraction patterns demonstrated that the particles are crystalline. This is a very powerful method for the 'clean' synthesis of moderately and completely water-soluble inorganic materials.

3.
Chemosphere ; 60(9): 1246-52, 2005 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-16018895

RESUMO

A depleted-uranium penetrator, shot in 1999 at Djakovica, Western Kosovo, and there collected in June 2001, shows evident alteration processes, perceivable as black and yellow coatings. XRD indicates that the black coating mostly consists of uraninite, UO2, with possible presence of other more oxidized uranium forms, such as U3O8. The yellow material is mostly amorphous, with variable weak diffraction lines, due to minor embedded uraninite grains, or possibly to schoepite, UO3 x 2H2O. SEM-EDS reveals only uranium. Whereas uraninite does not show any crystal shape, the yellow material recrystallizes to flattened pseudo-hexagonal prisms, approximately 2-10 microm wide and 1-4 microm long. Raman spectra of the yellow material have peaks at 3474 and 3222 cm(-1), indicative for OH groups, plus at 812 and 744 cm(-1), indicative for UO2(2+) uranyl ions. Based on the different data, the yellow material covering the depleted-uranium dart is an oxidized corrosion product, containing uranyl ions and hydroxyls and/or water molecules, akin to schoepite. Therefore, the Djakovica dart shows evident oxidation and leaching processes, progressively releasing mobile uranium forms. As uranium will be progressively dispersed far from the impact sites, at a rate controlled by the presence of effective fixing mechanisms, we feel necessary to maintain long term geochemical control of water pollution within the battlefield surroundings.


Assuntos
Minerais/análise , Poluentes Radioativos do Solo/análise , Urânio/análise , Guerra , Minerais/química , Monitoramento de Radiação , Análise Espectral Raman , Urânio/química , Água/química , Abastecimento de Água , Iugoslávia
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