>>On demand<< triggered crystallization of CaCO3 from solute precursor species

Can we control the crystallization of solid CaCO3 from supersaturated aqueous solutions and thus mimic a natural process predicted to occur in living organisms that produce biominerals? Here we show how we achieved this by confining the reaction between Ca2+ and CO32- ions to the environment of nanosized water cores of water-in-oil microemulsions. Using a combination of in situ small-angle X-ray scattering, high-energy X-ray diffraction, and low-dose liquid-cell scanning transmission electron microscopy, we elucidate how the presence of micellar interfaces leads to the formation of a solute CaCO3 phase that can be stabilized for extended periods of time inside micellar water nano-droplets. We can also control and >>on-demand<< trigger the actual precipitation and crystallization of solid CaCO3 phases through the targeted removal of the organic-inorganic interfaces.