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Unraveling the internal microstructure of biogenic and bioinspired calcite single crystals

Title data

Schenk, Anna ; Kim, Yi-Yeoun:
Unraveling the internal microstructure of biogenic and bioinspired calcite single crystals.
In: MRS Bulletin. Vol. 40 (2015) Issue 6 . - pp. 499-508.
ISSN 0883-7694
DOI: https://doi.org/10.1557/mrs.2015.100

Abstract in another language

Modern materials design is largely based on composite structures aimed at a synergistic integration of multiple components with a diverse range of properties. Biologically grown minerals provide an intriguing example of sophisticated organic–inorganic nanocomposite structures resulting in excellent mechanical characteristics. Among the mineral phases utilized by living organisms to generate hard tissues, calcium carbonate—especially the calcite polymorph—is ubiquitous and has been studied intensively. Biogenic calcite crystals often show hierarchical organization spanning multiple length scales, and the occluded organic phases are now known to be intimately associated with the mineral host. Here, we discuss the internal micro- and nanostructure of two selected types of calcite biominerals—the sea urchin spine and prismatic single crystals extracted from mollusk shells. This article highlights recent advances in translating the key principles of biological mineralization into design strategies for synthetic materials and presents analogies between biogenic and synthetic calcite single crystals.

Further data

Item Type: Article in a journal
Refereed: Yes
Institutions of the University: Faculties > Faculty of Biology, Chemistry and Earth Sciences > Department of Chemistry > Junior Professor Colloidal Systems > Junior Professor Colloidal Systems - Juniorprof. Dr. Anna Schenk
Faculties
Faculties > Faculty of Biology, Chemistry and Earth Sciences
Faculties > Faculty of Biology, Chemistry and Earth Sciences > Department of Chemistry
Faculties > Faculty of Biology, Chemistry and Earth Sciences > Department of Chemistry > Junior Professor Colloidal Systems
Result of work at the UBT: No
DDC Subjects: 500 Science > 540 Chemistry
Date Deposited: 21 Feb 2017 12:46
Last Modified: 16 May 2022 12:32
URI: https://eref.uni-bayreuth.de/id/eprint/36167