Molecular cannibalism: Sacrificial materials as precursors for hollow and multidomain single crystals

The coexistence of single-crystallinity with a multidomain morphology is a paradoxical phenomenon occurring in biomineralization. Translating such feature to synthetic materials is a highly challenging process in crystal engineering. We demonstrate the formation of metallo-organic single-crystals with a unique appearance: six-connected half-rods forming a hexagonal-like tube. These uniform objects are formed from unstable, monodomain crystals. The monodomain crystals dissolve from the inner regions, while material is anisotropically added to their shell, resulting in hollow, single-crystals. Regardless of the different morphologies and growth mechanism, the crystallographic structures of the mono- and multidomain crystals are nearly identical. The chiral crystals are formed from achiral components, and belong to a rare space group (P622). Sonication of the solvents generating radical species is essential for forming the multidomain single-crystals. This process reduces the concentration of the active metal salt. Our approach offers opportunities to generate a new class of crystals. The coexistence of single-crystallinity with a multidomain morphology is a paradoxical crystallographic phenomenon. Here, the authors introduce a crystallographic morphology never reported before. The single-crystals with a curved and hollow morphology offer opportunities to generate a class of synthetic multidomain crystals.

Automated summary

The coexistence of single-crystallinity with a multidomain morphology is a paradoxical crystallographic phenomenon. The authors demonstrate the formation of metallo-organic single-crystals with a unique appearance, formed from unstable, monodomain crystals. Despite different morphologies and growth mechanisms, the crystallographic structures of mono- and multidomain crystals are nearly identical. Sonication of solvents generating radical species is essential for forming the multidomain single-crystals, offering opportunities to generate a new class of crystals.