A Quantitative Description of the Causes of Color in Corundum

Dubinsky, E. V.; Stone-Sundberg, Jennifer; Emmett, John L.

doi:10.5741/gems.56.1.2

Cited by 34 publications

(50 citation statements)

References 30 publications

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“…2017), to decipher previously unexplainable colour phenomena in corundum (Emmett et al 2017b), quantify absorption cross sections for corundum chromophores (Dubinsky et al . 2020), study new intervalence charge transfer (IVCT) pairs (unpublished), check the purity of synthetically grown samples and to investigate the trace element chemistry of natural corundum from around the world (details of this work covering the SIMS quantification of all eighteen trace elements using the developed RSF values presented here will be published separately). In all cases of natural samples that were characterised, they were selected for high optical quality (lack of visible inclusions and homogeneity of colour).…”

Section: Methodsmentioning

confidence: 99%

“…The chromophore responsible for a particular visible absorption spectrum in corundum is not necessarily a simple substitution of an isovalent transition metal cation for the octahedral Al 3+ ; the chemistry of these chromophores can be quite complex and involve charge transfer pairs between species including metal cations, protons, trapped holes and vacancies where the chemistry is dictated by whether the material is donor or acceptor dominated (Dubinsky et al . 2020).…”

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confidence: 99%

“…Knowledge of the trace element chemistry aids in the understanding of the absorption properties responsible for colour (Nassau 1978, Emmett et al 2017a, Dunbinsky et al . 2020) and the electrical properties of corundum (Kröger 1984a, b). For technical synthetic corundum, accurate quantification of impurities is necessary not only for controlling intentional doping, but for adequate quality control, as contamination can reduce the transparency, impart undesired colour, produce unwanted fluorescence and lead to parasitic absorption in the cases of laser gain media.…”

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confidence: 99%

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Accurate Trace Element Reporting in Corundum: Development of Secondary Ion Mass Spectrometry Relative Sensitivity Factors

Stone-Sundberg

Guan

Sun

et al. 2020

Geostandard Geoanalytic Res

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The attractive physical and chemical properties of corundum lend to this material’s importance in both its natural and synthetic forms. However, much of the quantitative work performed on this material is plagued by unknown inaccuracy as non‐matrix‐matched reference materials are used. To conduct accurate quantitative analysis using SIMS, matrix‐specific relative sensitivity factors (RSFs) were determined for eighteen trace elements in corundum using dose‐verified ion implants. The RSF values ranged from 2.56 × 1022 to 3.29 × 1024 cm‐1 with total combined uncertainty values ranging from 7 to 10%. The RSF values, which are related to ionisation potentials, showed trends consistent with expectations for an insulating oxide. The developed values were applied to calibrate reference materials for LA‐ICP‐MS and to study other natural and synthetic corundum samples. A measurement reference material calibrated for Mg, Si, Ti, V, Fe and Ga produced consistent results over ten sessions in 4 years with relative standard deviations per trace element of 5% or less, confirming the repeatability of our process. A key finding was that calibrating LA‐ICP‐MS with NIST SRM 610 and 612 glasses to analyse corundum resulted in under‐reporting trace elements Be, Ti, V, Fe, Co, Ni and Ga compared with using matrix‐matched reference materials.

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Section: Methodsmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

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Accurate Trace Element Reporting in Corundum: Development of Secondary Ion Mass Spectrometry Relative Sensitivity Factors

Stone-Sundberg

Guan

Sun

et al. 2020

Geostandard Geoanalytic Res

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“…Sapphires from Madagascar or Sri Lanka may show dramatic color zoning with alternating blue and colorless zones constrained to follow specific crystallographic planes and can track the crystal growth history of the gems. The blue color is derived from absorption of red light through an intervalence charge transfer between Fe 2+ and Ti 4+ sitting on adjacent octahedral sites in the corundum structure [43]; therefore, the oscillatory zoning indicates differences in the chemical environment during growth involving not only iron (Fe) and titanium (Ti) but also potentially magnesium (Mg) and silicon (Si) [44]. In Madagascar and Sri Lankan sapphires, the color zoning usually occurs with very sharp boundaries between blue and colorless zones and generally follows a hexagonal pattern when looking down the c-axis (Figure 15).…”

Section: Blue Sapphire: Geographic Origin Determinationmentioning

confidence: 99%

Raman and Photoluminescence Mapping of Gem Materials

et al. 2021

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Raman and photoluminescence (PL) mapping is a non-destructive method which allows gemologists and scientists to evaluate the spatial distributions of defects within a gem; it can also provide a method to quickly distinguish different species within a composite gem. This article provides a summary of this relatively new technology and its instrumentation. Additionally, we provide a compilation of new data for various applications on several gemstones. Spatial differences within diamonds can be explored using PL mapping, such as radiation stains observed on the rough surface of natural green diamonds. Raman mapping has proven useful in distinguishing between omphacite and jadeite within a composite of these two minerals, identifying various tourmaline species within a heterogeneous mixture, and determining the calcium carbonate polymorphs in pearls. Additionally, it has potential to be useful for country-of-origin determination in blue sapphires and micro-inclusion analysis. As new avenues of research are explored, more applications for gem materials will inevitably be discovered.

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“…Despite the five d orbitals of the M 3+ ion pointing in different directions, if an isolated M ion was considered, it would not generate any colour and would remain colourless. However, the red colouration in corundum (ruby variety) involves the replacement of several hundred to a few thousand Al 3+ ppma (ppma = parts per million atoms) with Cr 3+ as impurity [28]. At these structural positions [55], the five 3d orbitals of the Cr 3+ ion, surrounded by six oxygen ions (in a distorted octahedral configuration), interact with the orbitals of the six oxygen ligands that, in turn, produce perturbations in the energy levels of the individual orbitals.…”

Section: Colourmentioning

confidence: 99%

Intriguing minerals: corundum in the world of rubies and sapphires with special attention to Macedonian rubies

et al. 2021

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This lecture text presents features of the fascinating mineral corundum and its gem varieties, ruby and sapphire. The geologic occurrences of its varieties and the best-known world localities are presented in detail. The mineralogy and crystallography of corundum, as well as its occurrence forms, are discussed. The origin of their colour varieties and their usage are described, in addition to their important physical characteristics. Applications in the watch and laser industries and as an abrasive material, among others, are included. The ruby variety from dolomite marble in North Macedonia exhibits the unique optical phenomenon known as diasporescence-the inclusion of diaspore crystals in the corundum matrix. This phenomenon affects the parting of corundum crystals and influences their colour, density and hardness. Therefore, special attention is paid here to morphological and physical characteristics of the Macedonian gem corundum.

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A Quantitative Description of the Causes of Color in Corundum

Cited by 34 publications

References 30 publications

Accurate Trace Element Reporting in Corundum: Development of Secondary Ion Mass Spectrometry Relative Sensitivity Factors

Accurate Trace Element Reporting in Corundum: Development of Secondary Ion Mass Spectrometry Relative Sensitivity Factors

Raman and Photoluminescence Mapping of Gem Materials

Intriguing minerals: corundum in the world of rubies and sapphires with special attention to Macedonian rubies

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