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TIANJIN, Jan. 16 (Xinhua) — Researchers have made a significant advancement in the development of dynamic supramolecular snub cubes, as reported by Tianjin University, a contributor to the global study.
Their investigation addressed a persistent issue in supramolecular chemistry: the stereospecific assembly of synthetic polyhedra with mechanical characteristics and guest-binding capabilities, similar to naturally occurring encasements such as viral capsids and ferritin.
The snub cube, one of the 13 Archimedean solids identified by the ancient Greek mathematician Archimedes, has long intrigued scientists because of its inherent topological chirality and structural intricacy. However, achieving the stereospecific assembly of such a polyhedron has proved to be a significant challenge until now.
The research group utilized a hierarchical chirality transfer method to realize the stereospecific assembly of enantiomeric supramolecular snub cubes. These snub cubes exhibit remarkable structural complexity and precision, featuring 38 facets and an external diameter of 5.1 nanometers. Additionally, the cube contains a spherical cavity with a diameter of 2.3 nanometers.
The cubes display reversible photochromic properties, including changes in color under various light wavelengths, and controllable mechanical characteristics, such as photocontrolled elasticity and hardness.
These findings indicate that the snub cubes represent not only a considerable achievement in structural design but also hold promise as candidates for the development of intelligent materials and advanced optoelectronic devices.
The chiral porous superstructure of the snub cubes may find applications in areas ranging from chiral separation to drug delivery.
Hu Wenping, who headed the research team at Tianjin University, stated that this kind of foundational research could foster innovation across numerous fields — from new material development to biomedicine and chemical engineering.
The results have been recently published in the scholarly journal Nature. ■
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