Wiley_Aggregate
Volume6, Issue8
August 2025
e70135
Back Cover: Self-Assembly of Hydration-Dependent Quasi-Spherical Mixed Micelles into Selective Mesoscale Complex Crystalline Structures
This study reveals the self-assembly of complex mesoscale liquid crystalline structures from nonionic amphiphiles (C16EO20 and EO5PO49EO5) in aqueous solution. Quantitative small-angle X-ray scattering analyses, including Le Bail refinements and electron density reconstruction, elucidate hydration-dependent quasi-spherical micelle packing into diverse superlattices such as Frank–Kasper phases, providing mechanistic insights into soft matter crystallization and the design of hierarchical nanostructured materials (e70049).
- Young-Jin Yoon
- Tae-Hwan Kim
https://onlinelibrary.wiley.com/doi/10.1002/agt2.70135
Volume6, Issue8
August 2025
e70135
Back Cover: Self-Assembly of Hydration-Dependent Quasi-Spherical Mixed Micelles into Selective Mesoscale Complex Crystalline Structures
This study reveals the self-assembly of complex mesoscale liquid crystalline structures from nonionic amphiphiles (C16EO20 and EO5PO49EO5) in aqueous solution. Quantitative small-angle X-ray scattering analyses, including Le Bail refinements and electron density reconstruction, elucidate hydration-dependent quasi-spherical micelle packing into diverse superlattices such as Frank–Kasper phases, providing mechanistic insights into soft matter crystallization and the design of hierarchical nanostructured materials (e70049).
https://onlinelibrary.wiley.com/doi/10.1002/agt2.70135