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(Reference retrieved automatically from Web of Science through information on FAPESP grant and its corresponding number as mentioned in the publication by the authors.)

Processing and thermoluminescent response of porous biomorphic dysprosium doped yttrium disilicate burner

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Author(s):
Santos, S. C. [1] ; Yamagata, C. [1] ; Campos, L. L. [1] ; Mello-Castanho, S. R. H. [1]
Total Authors: 4
Affiliation:
[1] Inst Pesquisas Energet & Nucl, Av Prof Lineu Prestes 2242, Sao Paulo - Brazil
Total Affiliations: 1
Document type: Journal article
Source: Materials Chemistry and Physics; v. 177, p. 505-511, JUL 1 2016.
Web of Science Citations: 4
Abstract

The present study reports a process to develop a porous biomorphic dysprosium doped yttrium disilicate burner from biotemplating of Luffa Cylindrica and its thermoluminescent response is evaluated. Processing parameters such as rheological behavior of the ceramic suspensions, surface chemistry of the nanoparticles, microstructure, thermal stability of the biotemplating, as well as thermoluminescent response of the nanoparticles, were investigated. Ceramic suspensions prepared at pH 10 from tetramethylammonium hydroxide, 2 wt% polyacrylic ammonium salt and 0.4 wt% carboxymethylcellulose exhibited shear thinning behavior, suitable apparent viscosity for replica method and porous microstructure as sintered. Promising thermoluminescent result of the yttrium disilicate nanoparticles was observed at 580 nm and at 180 degrees C. The burner prototype sintered at 1500 degrees C for 7 h exhibited reticulated shape similar to biotemplating, porous microstructure with mean grain size around 1 gm, no apparent cracks, pycnometric density of 3.21 g cm(-3) (80% of theoretical density; 4.04 g cm(-3)) and radiant efficiency of 13%. These results show that controlling stability of nano particles leads to form a microstructure with controlled grain size and porous distribution, which enhances porous burner efficiency. (C) 2016 Elsevier B.V. All rights reserved. (AU)

FAPESP's process: 14/23621-3 - Development of ceramic materials based on rare earth doped yttria for application in radiation dosimetry
Grantee:Silas Cardoso dos Santos
Support type: Scholarships in Brazil - Post-Doctorate