Add to ORKGManipulation of inorganic materials with organic macromolecules enables organisms to create biominerals such as bones and seashells, where occlusion of biomacromolecules within individual crystals generates superior mechanical properties. Current understanding of this process largely comes from studying the entrapment of micron-size particles in cooling melts. Here, by investigating micelle incorporation in calcite with atomic force microscopy and micromechanical simulations, we show that different mechanisms govern nanoscale occlusion. By simultaneously visualizing the micelles and propagating step edges, we demonstrate that the micelles experience significant compression during occlusion, which is accompanied by cavity formation. This gen...
Growth by oriented assembly of nanoparticles is a widely reported phenomenon for many crystal system...
Single crystals containing nanoparticles represent a unique class of nanocomposites whose properties...
Rocks, ceramics, metals and many other materials are made up of crystals. More than 150 years ago sc...
Manipulation of inorganic materials with organic macromolecules enables organisms to create biominer...
This article describes an experimentally versatile strategy for producing inorganic/ organic nanocom...
Calcite, the most thermodynamically stable form of calcium carbonate (CaCO3), is commonly found in n...
We recently discovered a unique biostrategy for strengthening and toughening brittle crystals of cal...
Single crystals containing nanoparticles represent a unique class of nanocomposites whose properties...
This work was supported by an FP7 advanced grant from the European Research Council (JNC and IKR), b...
A growing number of classes of organic (macro) molecular materials have been trapped into inorganic ...
© 2016 American Chemical Society. The formation of calcite (CaCO3), the most abundant carbonate mine...
A growing number of classes of organic (macro)molecular materials have been trapped into inorganic c...
The formation of calcite (CaCO<sub>3</sub>), the most abundant carbonate mineral on Earth and a comm...
In contrast to synthetic materials, materials produced by organisms are formed in ambient conditions...
Recently, it has become clear that a range of nanoparticles can be occluded within single crystals t...
Growth by oriented assembly of nanoparticles is a widely reported phenomenon for many crystal system...
Single crystals containing nanoparticles represent a unique class of nanocomposites whose properties...
Rocks, ceramics, metals and many other materials are made up of crystals. More than 150 years ago sc...
Manipulation of inorganic materials with organic macromolecules enables organisms to create biominer...
This article describes an experimentally versatile strategy for producing inorganic/ organic nanocom...
Calcite, the most thermodynamically stable form of calcium carbonate (CaCO3), is commonly found in n...
We recently discovered a unique biostrategy for strengthening and toughening brittle crystals of cal...
Single crystals containing nanoparticles represent a unique class of nanocomposites whose properties...
This work was supported by an FP7 advanced grant from the European Research Council (JNC and IKR), b...
A growing number of classes of organic (macro) molecular materials have been trapped into inorganic ...
© 2016 American Chemical Society. The formation of calcite (CaCO3), the most abundant carbonate mine...
A growing number of classes of organic (macro)molecular materials have been trapped into inorganic c...
The formation of calcite (CaCO<sub>3</sub>), the most abundant carbonate mineral on Earth and a comm...
In contrast to synthetic materials, materials produced by organisms are formed in ambient conditions...
Recently, it has become clear that a range of nanoparticles can be occluded within single crystals t...
Growth by oriented assembly of nanoparticles is a widely reported phenomenon for many crystal system...
Single crystals containing nanoparticles represent a unique class of nanocomposites whose properties...
Rocks, ceramics, metals and many other materials are made up of crystals. More than 150 years ago sc...