Schmidt Martin U, Brühne Stefan, Wolf Alexandra K, Rech Anette, Brüning Jürgen, Alig Edith, Fink Lothar, Buchsbaum Christian, Glinnemann Jürgen, van de Streek Jacco, Gozzo Fabia, Brunelli Michela, Stowasser Frank, Gorelik Tatiana, Mugnaioli Enrico, Kolb Ute
Goethe Universität, Institut für Anorganische und Analytische Chemie, Max-von-Laue-Strasse 7, 60438 Frankfurt am Main, Germany.
Acta Crystallogr B. 2009 Apr;65(Pt 2):189-99. doi: 10.1107/S0108768109003759. Epub 2009 Mar 16.
The crystal structure of the nanocrystalline alpha phase of Pigment Yellow 213 (P.Y. 213) was solved by a combination of single-crystal electron diffraction and X-ray powder diffraction, despite the poor crystallinity of the material. The molecules form an efficient dense packing, which explains the observed insolubility and weather fastness of the pigment. The pair-distribution function (PDF) of the alpha phase is consistent with the determined crystal structure. The beta phase of P.Y. 213 shows even lower crystal quality, so extracting any structural information directly from the diffraction data is not possible. PDF analysis indicates the beta phase to have a columnar structure with a similar local structure as the alpha phase and a domain size in column direction of approximately 4 nm.
尽管颜料黄213(P.Y. 213)的纳米晶α相结晶性较差,但通过单晶电子衍射和X射线粉末衍射相结合的方法解析了其晶体结构。分子形成了高效的致密堆积,这解释了该颜料所观察到的不溶性和耐候性。α相的对分布函数(PDF)与确定的晶体结构一致。P.Y. 213的β相晶体质量更低,因此无法直接从衍射数据中提取任何结构信息。PDF分析表明β相具有柱状结构,其局部结构与α相相似,柱状方向的畴尺寸约为4 nm。