Victor R. Lauth scite author profile

Based on a novel approach that takes into account the coacervation of calcium and poly(acrylic acid) (PAA), we were able to biomimetically produce molded micropatterned parts from amorphous calcium carbonate (ACC) particles. We studied the time-and concentration-dependent growth of Ca 2+ /PAA coacervate droplets using dynamic light scattering (DLS) and turbidity measurements. Applying these results for the generation of high amounts of unstable ACC particles, we were able to produce slurries that could be molded into micropatterned casts. The obtained slurries contained both micrometer sized ACC particles and smaller nano-sized particles. When both types of particles were used for molding, materials with a high surface roughness could be produced, while the micropatterns of the molds could not be reproduced properly. However, by removing the bigger particles from the slurry using only the smaller, unstable, ACC particles, good reproduction of the micropatterns could be achieved, yielding smooth surfaces with a high surface area. The processing route represents a versatile platform for the bottom-up preparation of micropatterned ceramics on the basis of calcium carbonate.

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Microstructure and flexural properties of multilayered fiber-reinforced oxide composites fabricated by a novel lamination route

Guglielmi

Blaese

Hablitzel

et al. 2015

Ceramics International

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Victor R. Lauth

Coacervate-directed synthesis of CaCO₃ microcarriers for pH-responsive delivery of biomolecules

An evaluation of colloidal and crystalline properties of CaCO 3 nanoparticles for biological applications

Characterization of PA12/PBT specimens prepared by selective laser sintering

Micromolding of Calcium Carbonate Using a Bio‐Inspired, Coacervation‐Mediated Process

Microstructure and flexural properties of multilayered fiber-reinforced oxide composites fabricated by a novel lamination route

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Victor R. Lauth

Coacervate-directed synthesis of CaCO3 microcarriers for pH-responsive delivery of biomolecules

An evaluation of colloidal and crystalline properties of CaCO 3 nanoparticles for biological applications

Characterization of PA12/PBT specimens prepared by selective laser sintering

Micromolding of Calcium Carbonate Using a Bio‐Inspired, Coacervation‐Mediated Process

Microstructure and flexural properties of multilayered fiber-reinforced oxide composites fabricated by a novel lamination route

Contact Info

Product

Resources

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Coacervate-directed synthesis of CaCO₃ microcarriers for pH-responsive delivery of biomolecules