Calcite Twinning in Mollusk Shells and Carrara Marble

Alvarez, Cristina Castillo; Grimsich, John L.; Schmidt, Connor A.; Lisabeth, H. P.; Voigtländer, Anne; Gilbert, Benjamin

doi:10.1002/adfm.202304288

Cited by 4 publications

References 65 publications

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Recent Advances in the Field of Bioinspired Materials and Systems

Zollfrank,

Selhuber‐Unkel

2024

Adv Funct Materials

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Bioinspired and biomimetic materials have revolutionized many aspects in the engineering sciences, ranging from basic technologies to advanced applications such as the Gecko's nanostructure for sticky tapes or the sharkskin for swimming suits. Research in these subjects in Germany has been supported by several national priority research programs since 2009 (SPP 1420: Biomimetic Materials Research: Functionality by Hierarchical Structuring of Materials, [1] SPP 1569: Generation of Multifunctional Inorganic Materials by Molecular Bionics, 2012-2019 [2] ), which strongly accelerated developments and investigations in the field. Recently, also photonic applications of bioinspired strategies have come within reach, demonstrating the huge potential of the approach nature has chosen in many directions (SPP 1839: Tailored Disorder -A science-and engineering-based approach to materials design for advanced photonic applications, 2015-2024 [3] ). These developments have been accompanied by a biennial DGM Bioinspired Materials conference series, which was launched in 2012. [4] The present Advanced Functional Materials feature issue now proudly presents accompanying papers from the 6 th DGM "Bioinspired Materials [5] " together with additional most recent and advanced research work pushing the limits of our exciting interdisciplinary research field. The collected perspectives, reviews and research articles represent the current state-of-the-art in the design of functional and structural materials and systems inspired by principles found in living nature. Main topics of this include the study and formation of hierarchical structures and the properties of complex-shaped biological materials. The transfer of biological principles into functional materials and systems made of organic and/or inorganic components represents a further main area. Beside synthesis and

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Recent Advances in the Field of Bioinspired Materials and Systems

Zollfrank,

Selhuber‐Unkel

2024

Adv Funct Materials

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In operando 3D mapping of elastic deformation fields in crystalline solids

Amini,

Zhu,

Razi

et al. 2024

Matter

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{101¯4} twin boundary in calcite: Structure and physical properties

Yang,

Lin,

Ding

et al. 2024

Phys. Rev. B

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Calcite, a CaCO3 polymorph, is one of the most significant materials in nature. In addition to its fundamental role in the global carbon cycle, it fills an unparalleled range of applications, both as a natural biomineral and more directly engineered materials. One of the most notable characteristics of calcite is its tendency to form twins, the boundaries of which are expected to determine key attributes of the host mineral at mesoscopic scales. Using a classical molecular dynamics simulation performed with a thermodynamically consistent rigid-ion force field, we show that the walls between the two twin domains aligned along the hexagonal (101¯4) plane of calcite have some unexpected properties: (1) rather than monoatomic planes, these twin walls are composed of two layers with fundamentally different distortions, (2) atomic shifts within the twin walls create strong polarity while the bulk remains centrosymmetric, and (3) the temperature evolution of the structural order parameter is mostly, but not completely, related to the tilt and rotation of CO32− molecules. Molecular dynamics simulations using thermodynamically accurate interatomic potentials demonstrate that the temperature evolution of twin walls is different from that of the bulk material. We show that kinks in twin walls have a low energy and generate high structural disorder near the kink position. Our methods are applicable to other molecular systems and emphasize the dominance of twin walls in materials. Published by the American Physical Society 2024

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Calcite Twinning in Mollusk Shells and Carrara Marble

Cited by 4 publications

References 65 publications

Recent Advances in the Field of Bioinspired Materials and Systems

Recent Advances in the Field of Bioinspired Materials and Systems

In operando 3D mapping of elastic deformation fields in crystalline solids

{101¯4} twin boundary in calcite: Structure and physical properties

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