Assembly of porous smectic structures formed from interlocking high-symmetry planar nanorings

作者:Avendano Carlos; Jackson George; Muller Erich A; Escobedo Fernando A
来源:Proceedings of the National Academy of Sciences of the United States of America, 2016, 113(35): 9699-9703.
DOI:10.1073/pnas.1604717113

摘要

Materials comprising porous structures, often in the form of interconnected concave cavities, are typically assembled from convex molecular building blocks. The use of nanoparticles with a characteristic nonconvex shape provides a promising strategy to create new porous materials, an approach that has been recently used with cagelikemolecules to formremarkable liquidswith "scrabbled" porous cavities. Nonconvex mesogenic building blocks can be engineered to form unique self-assembled open structures with tunable porosity and long-range order that is intermediate between that of isotropic liquids and of crystalline solids. Here we propose the design of highly open liquid-crystalline structures from rigid nanorings with ellipsoidal and polygonal geometry. By exploiting the entropic ordering characteristics of athermal colloidal particles, we demonstrate that high-symmetry nonconvex rings with large internal cavities interlock within a 2D layered structure leading to the formation of distinctive liquid-crystalline smectic phases. We show that these smectic phases possess uniquely high free volumes of up to similar to 95%, a value significantly larger than the 50% that is typically achievable with smectic phases formed by more conventional convex rod-or disklike mesogenic particles.

  • 出版日期2016-8-30