Beyond Vitruvius: New Insight in the Technology of Egyptian Blue and Green Frits

Grifa, Celestino; Cavassa, Laëtitia; Bonis, Alberto De; Germinario, Chiara; Guarino, Vincenza; Izzo, Francesco; Kakoulli, Ioanna; Langella, Alessio; Mercurio, Mariano; Morra, Vincenzo

doi:10.1111/jace.14370

Cited by 47 publications

(40 citation statements)

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“…Taking into consideration the textural features (sorting and circularity) and the mineralogical assemblage, such a mixed‐source temper resembled the shoreline deposits from Mondragone to north of Cuma, where beach sands are affected by the flux of siliciclastic and carbonate sediments of the Volturno River with a volcanic component derived from Campanian volcanoes (Balassone et al, ; Morra et al, ). It is worth highlighting that such sand was a valuable geomaterial, largely used in antiquity by Phlegraean artisans (including Cuma) as starting materials for glass and green/blue pigments, as also claimed by Vitruvius (Grifa et al, ). Hence, the cooking pots of presumed Aegean‐like tradition can be considered as imitations since the artifacts from the Eastern Mediterranean pottery tradition are sensibly different as characterized by the occurrence of metamorphic or acidic volcanic‐tempered pastes (Istenič & Schneider, ); moreover, they also differ from other Italian imitations, in which a calcareous paste plus volcanic temper was recognized (Gliozzo et al, ).…”

Section: Discussionmentioning

confidence: 98%

Local production and imitations of Late Roman pottery from a well in the Roman necropolis of Cuma in Naples, Italy

et al. 2018

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Archaeological excavations performed in a funerary complex in Cuma (Campania region, Italy) unearthed excellently preserved common wares dated to the third century A.D. Archaeometric analyses were focused on Campanian pitchers, Aegean‐like cooking pots, and pyriform pitchers, the latter recorded for the first time in an Italian context. The local pitchers were manufactured with a high‐CaO clay (CaO = ca. 12 wt.%) and local volcanic temper, fired at ca. 800–850°C, as suggested by the presence of calcite. The Aegean‐like pots and the pyriform pitchers were made with low‐CaO clay (CaO ≤ 4.0 wt.%) mixed with a calcite‐bearing temper, along with volcanic and siliciclastic grains, and fired at 800–950°C. The comparison with raw materials inferred that local vessels were made with low‐CaO basinal clays which outcrop in the northern Campania region, and sands from the shoreline north of Cuma where carbonate, siliciclastic and volcanic phases mix together. Our results suggest that the Phlegraean Late Roman workshops produced their traditional vases along with imitations of Aegean‐like pottery. Thus, microregional production responded to a market demand requiring shapes and styles similar to imports from the eastern Mediterranean, with which commercial trade was still quite active.

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Section: Discussionmentioning

confidence: 98%

Local production and imitations of Late Roman pottery from a well in the Roman necropolis of Cuma in Naples, Italy

et al. 2018

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“…The ancient production of Egyptian blue must have been in the hands of very competent specialists and large workshops for its production has been identified in Amarna and elsewhere . Egyptian blue synthesis requires the firing of a mixture of a copper salt, calcium carbonate, and quartz usually with a small amount of a sodium flux to temperatures between 850 and 1,050 . Frit cakes of the pigment from the 2nd Millenea BCE from Egypt have been studied by Hatton et al, and these cakes would be ground to produce the pigment with large particle sizes reported to be as large as 150 μm.…”

Section: Notes On the Production Of Egyptian Blue And The Particle Sizementioning

confidence: 99%

“…Two experimental methods have recently been reported for the production of the pigment described by Johnson‐McDaniel et al: The melt‐flux method requires lower temperature (875 °C) and produced smaller sized particles in the laboratory (5–15 μm crystallites by SEM), whereas solid state synthesis yielded larger particle sizes (15–50 μm) but requires higher synthesis temperatures (1020 °C), thus above the melting point of bronze. In archaeological studies, Grifa et al demonstrated that high temperatures were achieved in synthesis using crucibles from Cuma, thus exceeding the thermal stability of cuprorivaite crystals (950–1050 °C), thus within the range for both synthesis routes.…”

Section: Notes On the Production Of Egyptian Blue And The Particle Sizementioning

confidence: 99%

Egyptian blue pigment in East Mediterranean wall paintings: A study of the lifetime of its optical infrared emission

Linn

Comelli

Valentini

et al. 2018

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This study presents advances in the application of laser‐based methods to image and measure the luminescence lifetime of historical wall paintings containing Egyptian blue. Samples from Tel Kabri, a major Canaanite palace dated to 18th C. BCE, from the Roman city of Caesarea Maritima, from the 4–5th C. Byzantine tomb in Lohamei HaGeta'ot, and from a 6th C. Byzantine church of Shivta have been studied using time‐resolved photoluminescence spectroscopy and imaging. Taking into account the high sensitivity of the emission lifetime to the microenvironment surrounding the emitting species, here, we show for the first time that the optical emission from historical samples containing Egyptian blue particles exhibits meaningful lifetime variations. Indeed, the wall paintings from Tel Kabri, Lohamei HaGeta'ot, and Shivta present the shortest emission lifetime, close to 115–120 μs. However, samples from Caesarea Maritima wall paintings exhibit a different optical emission, which dumps more slowly with an average lifetime of 130 μs. Egyptian blue pigment particles, synthetised with modern methods, are associated with the longest emission lifetime of 147 μs. This study suggests that there is a possible link between the lifetime of the pigment's emission and its synthesis method.

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“…Außergewöhnliche chemische Kreativität wurde aufgewendet, um Pigmente und Farbstoffe für Farben zu produzieren, die nur selten als stabile Verbindungen in der Natur auftreten. Die Suche nach Alternativen für die teuren blauen Pigmente Lapislazuli, Indigo und Azurit ist besonders anschaulich und führte zu der sehr frühen und innovativen Entwicklung von chemischen Synthesen: Ägyptisch Blau, Han‐Blau, und Maya‐Blau, Cobaltmineralien und –gläser (Cobalt und Coelinblau, Cobaltglas), türkisfarbenes Elfenbein und, in jüngerer Zeit, das Eisencyanid Preußischblau, Phtalocyanine bis hin zum zeitgenössischen International Klein Blue. Ein besonderer Grad an “Perfektion” hinsichtlich der optischen Eigenschaften wurde durch die inspirierenden frühen chemischen Synthesen erreicht, die für die gegenwärtige Materialchemie von besonderem Interesse sind .…”

Section: Künstliche Materialien Mit Bemerkenswerten Eigenschaftenunclassified

“…Die Suche nach Alternativen für die teuren blauen Pigmente Lapislazuli, Indigo und Azurit ist besonders anschaulich und führte zu der sehr frühen und innovativen Entwicklung von chemischen Synthesen: Ägyptisch Blau, Han‐Blau, und Maya‐Blau, Cobaltmineralien und –gläser (Cobalt und Coelinblau, Cobaltglas), türkisfarbenes Elfenbein und, in jüngerer Zeit, das Eisencyanid Preußischblau, Phtalocyanine bis hin zum zeitgenössischen International Klein Blue. Ein besonderer Grad an “Perfektion” hinsichtlich der optischen Eigenschaften wurde durch die inspirierenden frühen chemischen Synthesen erreicht, die für die gegenwärtige Materialchemie von besonderem Interesse sind . Ein ähnlich interessantes Beispiel sind frühe islamische Glasuren, die überall für ihren goldenen Schimmer bekannt sind, der durch eine Optimierung der Oberflächenplasmonenresonanzeffekte von Kupfer‐ und Silbernanopartikeln erhalten wird, die an der Glasuroberfläche gebildet werden .…”

Section: Künstliche Materialien Mit Bemerkenswerten Eigenschaftenunclassified

Paläo‐inspirierte Systeme: Haltbarkeit, Nachhaltigkeit und bemerkenswerte Eigenschaften

et al. 2018

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Die Nachahmung von spezifischen (z. B. mechanischen, optischen und strukturellen) Eigenschaften, die in alten und historischen Systemen beobachtet werden, wird in diesem Kurzaufsatz als Paläo‐Inspiration bezeichnet. Zum Beispiel kann die Bergung in der Archäologie oder Paläontologie zur Identifikation von Materialien dienen, die a posteriori sehr widerstandsfähig gegen Veränderungen sind. Umso ermutigender ist die Tatsache, dass viele historische Materialien mit sanften chemischen Methoden hergestellt wurden, wobei oft nur geringe Energieressourcen und manchmal primitive Fertigungsmittel zur Verfügung standen. In diesem Kurzaufsatz werden historische Systeme als Inspirationsquelle für innovatives Materialdesign im Anthropozän betrachtet.

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Beyond Vitruvius: New Insight in the Technology of Egyptian Blue and Green Frits

Cited by 47 publications

References 24 publications

Local production and imitations of Late Roman pottery from a well in the Roman necropolis of Cuma in Naples, Italy

Local production and imitations of Late Roman pottery from a well in the Roman necropolis of Cuma in Naples, Italy

Egyptian blue pigment in East Mediterranean wall paintings: A study of the lifetime of its optical infrared emission

Paläo‐inspirierte Systeme: Haltbarkeit, Nachhaltigkeit und bemerkenswerte Eigenschaften

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