Davide Levy scite author profile

In contrast to synthetic materials, materials produced by organisms are formed in ambient conditions and with a limited selection of elements. Nevertheless, living organisms reveal elegant strategies for achieving specific functions, ranging from skeletal support to mastication, from sensors and defensive tools to optical function. Using state-of-the-art characterization techniques, we present a biostrategy for strengthening and toughening the otherwise brittle calcite optical lenses found in the brittlestar This intriguing process uses coherent nanoprecipitates to induce compressive stresses on the host matrix, functionally resembling the Guinier-Preston zones known in classical metallurgy. We believe that these calcitic nanoparticles, being rich in magnesium, segregate during or just after transformation from amorphous to crystalline phase, similarly to segregation behavior from a supersaturated quenched alloy.

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“Guanigma”: The Revised Structure of Biogenic Anhydrous Guanine

Hirsch

et al. 2015

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Living organisms display a spectrum of wondrous colors, which can be produced by pigmentation, structural coloration, or a combination of the two. A relatively well-studied system, which produces colors via an array of alternating anhydrous guanine crystals and cytoplasm, is responsible for the metallic luster of many fish. The structure of biogenic anhydrous guanine was so far believed to be the same as that of the synthetic one, a monoclinic polymorph (denoted as α). Here we re-examine the structure of biogenic guanine, using detailed experimental X-ray and electron diffraction data, exposing troublesome inconsistencies, namely, a “guanigma”. To address this, we sought alternative candidate polymorphs using symmetry and packing considerations and then utilized first-principles calculations to determine whether the selected candidates could be energetically stable. We identified theoretically a different monoclinic polymorph (denoted as β), were able to synthesize it, and confirmed using X-ray diffraction that it is this polymorph that occurs in biogenic samples. However, the electron diffraction data were still not consistent with this polymorph but rather with a theoretically generated orthorhombic polymorph (denoted as γ). This apparent inconsistency was resolved by showing how the electron diffraction pattern could be affected by crystal structural faults composed of offset molecular layers.

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Structural phase transitions inCaSi2under high pressure

et al. 2000

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Structure and compressibility of synthetic ZnAl 2 O 4 (gahnite) under high-pressure conditions, from synchrotron X-ray powder diffraction

Levy

Pavese

Sani

et al. 2001

Physics and Chemistry of Minerals

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Phase transition of synthetic zinc ferrite spinel (ZnFe 2 O 4 ) at high pressure, from synchrotron X-ray powder diffraction

Levy

Pavese

Hanfland

2000

Physics and Chemistry of Minerals

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Davide Levy

Coherently aligned nanoparticles within a biogenic single crystal: A biological prestressing strategy

“Guanigma”: The Revised Structure of Biogenic Anhydrous Guanine

Structural phase transitions inCaSi2under high pressure

Structure and compressibility of synthetic ZnAl 2 O 4 (gahnite) under high-pressure conditions, from synchrotron X-ray powder diffraction

Phase transition of synthetic zinc ferrite spinel (ZnFe 2 O 4 ) at high pressure, from synchrotron X-ray powder diffraction

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