Počet záznamů: 1
Raman scattering features of lead pyroantimonate compounds: implication for the non-invasive identification of yellow pigments on ancient ceramics. Part II. In situ characterisation of Renaissance plates by portable micro-Raman and XRF studies
SYS 0370205 LBL 03787^^^^^2200397^^^450 005 20240103200138.6 014 $a 000288544000023 $2 WOS 017 $a 10.1002/jrs.2699 $2 DOI 100 $a 20120213d m y slo 03 ba 101 0-
$a eng 102 $a GB 200 1-
$a Raman scattering features of lead pyroantimonate compounds: implication for the non-invasive identification of yellow pigments on ancient ceramics. Part II. In situ characterisation of Renaissance plates by portable micro-Raman and XRF studies 215 $a 8 s. 300 $a The effectiveness of Raman spectroscopy (using a bench-top system on standard pigments) for the characterisation of modified lead antimonate yellows was demonstrated in the already published Part I. The knowledge gained is employed here for the study of yellow glazes on genuine Renaissance plates with the aim of identifying non-invasively lead pyroantimonate compounds by portable micro-Raman equipment. The investigation was carried out directly on site, at the Victoria and Albert Museum (London, UK) and at the Museo Statale d'Arte Medievale di Arezzo (Arezzo, Italy), combining Raman and X-ray fluorescence analyses. In addition to the spectral features of both unmodified Naples yellow and Sn- and Zn-modified lead antimonate compounds, the Raman patterns related to partially modified pyrochlore structures were observed. For this reason, the possible Sn-induced modification of Naples yellow by cassiterite (SnO(2)), present within the glaze as opacifier was explored on lead antimonate yellow glaze mock-ups fired at different temperatures. 463 -1
$1 001 cav_un_epca*0257104 $1 011 $a 0377-0486 $e 1097-4555 $1 200 1 $a Journal of Raman Spectroscopy $v Roč. 42, č. 3 (2011), s. 407-414 $1 210 $c Wiley 610 0-
$a Naples yellow 610 0-
$a lead antimonate 610 0-
$a cubic pyrochlore 610 0-
$a non-invasive 610 0-
$a in situ 700 -1
$3 cav_un_auth*0249826 $a Rosi $b F. $y IT $4 070 701 -1
$3 cav_un_auth*0249841 $a Manuali $b V. $y IT $4 070 701 -1
$3 cav_un_auth*0102654 $a Grygar $b Tomáš $i Laboratoř analytická $j Analytical Laboratory $p UACH-T $w Laboratory of Environmental Geochemical Analysis $4 070 $T Ústav anorganické chemie AV ČR, v. v. i. 701 -1
$3 cav_un_auth*0102644 $a Bezdička $b Petr $i Centrum instrumentálních technik $j Centre of Instrumental Techniques $k CIT $l CIT $p UACH-T $w Academic Laboratory of Material Research of Painted Artworks $4 070 $T Ústav anorganické chemie AV ČR, v. v. i. 701 -1
$3 cav_un_auth*0249842 $a Brunetti $b B.G. $y IT $4 070 701 -1
$3 cav_un_auth*0249843 $a Sgamellotti $b A. $y IT $4 070 701 -1
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$3 cav_un_auth*0278223 $a Seccaroni $b C. $y IT $4 070 701 -1
$3 cav_un_auth*0224415 $a Miliani $b C. $y IT $z G $4 070
Počet záznamů: 1