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Rare-earth vs. heavy metal pigments and their colors from first principles.

Proceedings of the National Academy of Sciences of the United States of America (2013-01-11)
Jan M Tomczak, Leonid V Pourovskii, Loig Vaugier, Antoine Georges, Silke Biermann
ANOTACE

Many inorganic pigments contain heavy metals hazardous to health and environment. Much attention has been devoted to the quest for nontoxic alternatives based on rare-earth elements. However, the computation of colors from first principles is a challenge to electronic structure methods, especially for materials with localized f-orbitals. Here, starting from atomic positions only, we compute the colors of the red pigment cerium fluorosulfide as well as mercury sulfide (classic vermilion). Our methodology uses many-body theories to compute the optical absorption combined with an intermediate length-scale modelization to assess how coloration depends on film thickness, pigment concentration, and granularity. We introduce a quantitative criterion for the performance of a pigment. While for mercury sulfide, this criterion is satisfied because of large transition matrix elements between wide bands, cerium fluorosulfide presents an alternative paradigm: the bright red color is shown to stem from the combined effect of the quasi-2D and the localized nature of states. Our work shows the power of modern computational methods, with implications for the theoretical design of materials with specific optical properties.

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Sigma-Aldrich
Cerium, ingot, under oil, 99.9% trace rare earth metals basis
Sigma-Aldrich
Cerium, chips