Structure and stacking order in crystals of asymmetric dumbbell-like colloids
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Publication date
2015-02
Authors
Pal, Antara
Meijer, J.M.
Wolters, Joost Robert
Kegel, Willem
Petoukhov, Andrei
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Document Type
Article
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Abstract
The crystalline structure assembled out of charge-stabilized asymmetric dumbbell-like colloidal particles in ethyl alcohol by sedimentation has been probed using small-angle X-ray scattering with microradian resolution. The existence of plastic face-centered cubic crystals was inferred from the observed Bragg peaks. The presence of stacking faults and the mosaic structure of the sample lead to the appearance of diffuse scattering, forming Bragg scattering cylinders in the three-dimensional reciprocal space. The quality of the crystalline structure, as ascertained from a detailed analysis of the diffuse scattering intensity distribution, indicates the presence of only 1.5% of stacking faults between the hexagonal close-packed layers.
Keywords
asymmetric dumbbell-like colloids, stacking disorder, Bragg cylinders, plastic crystals, X-ray diffraction, X-RAY-DIFFRACTION, DIFFUSE-SCATTERING, PHOTONIC CRYSTALS, SINGLE-CRYSTALS, SPHERES, DISPERSIONS, ENTROPY, PHASES, FAULTS
Citation
Pal, A, Meijer, J-M, Wolters, J R, Kegel, W K & Petukhov, A V 2015, 'Structure and stacking order in crystals of asymmetric dumbbell-like colloids', Journal of Applied Crystallography, vol. 48, pp. 238-243. https://doi.org/10.1107/S1600576714028222