ChemistryNature Communications
Stereospecific supramolecular polymerization of nanoclusters into ultra-long helical chains and enantiomer separation
Z. Zhu, G. Zhang, et al.
This research, conducted by Zexi Zhu, Guohua Zhang, Bao Li, Minghua Liu, and Lixin Wu, presents an innovative cooperative self-assembly approach to create supramolecular polymers from ionic complexes. The resulting helical polymer chains, with lengths surpassing 20 µm, exhibit exceptional flexibility and high enantioselectivity in separating histidine derivatives, promising advancements in racemate separation technologies.
Related Publications
Explore these studies to deepen your understanding
Adjacent work that informs or extends this paper's methodology and findings.
Engineering and Technology
Highly durable and sustainable heterogeneous fabric using in-and-out fluorinated urethane coating for elimination of bacteria and oil-water separation
M. Choi, S. Park, et al.
Economics
Economic and legal approaches to the humanization of FinTech in the economy of artificial intelligence through the integration of blockchain into ESG Finance
O. P. Kazachenok, G. V. Stankevich, et al.
Engineering and Technology
Direct electrosynthesis and separation of ammonia and chlorine from waste streams via a stacked membrane-free electrolyzer
J. Gao, Q. Ma, et al.
Physics
Experimental Separation of Wave and Particle Attributes of a Single Photon Based on the Quantum Cheshire Cat Concept
Li
