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Spherulitic and rotational crystal growth of Quartz thin films

Nick R. Lutjes, Silang Zhou, Jordi Antoja-Lleonart, Beatriz Noheda, V. Ocelı́k

2021Scientific Reports26 citationsDOIOpen Access PDF

Abstract

Abstract To obtain crystalline thin films of alpha-Quartz represents a challenge due to the tendency for the material towards spherulitic growth. Thus, understanding the mechanisms that give rise to spherulitic growth can help regulate the growth process. Here the spherulitic type of 2D crystal growth in thin amorphous Quartz films was analyzed by electron back-scatter diffraction (EBSD). EBSD was used to measure the size, orientation, and rotation of crystallographic grains in polycrystalline SiO 2 and GeO 2 thin films with high spatial resolution. Individual spherulitic Quartz crystal colonies contain primary and secondary single crystal fibers, which grow radially from the colony center towards its edge, and fill a near circular crystalline area completely. During their growth, individual fibers form so-called rotational crystals, when some lattice planes are continuously bent. The directions of the lattice rotation axes in the fibers were determined by an enhanced analysis of EBSD data. A possible mechanism, including the generation of the particular type of dislocation(s), is suggested.

Topics & Concepts

QuartzCrystal (programming language)Materials scienceCrystallographyComposite materialGeologyChemistryComputer scienceProgramming languageSolidification and crystal growth phenomenananoparticles nucleation surface interactionsAcoustic Wave Resonator Technologies
Spherulitic and rotational crystal growth of Quartz thin films | Litcius