Probing the Solvent-Assisted Nucleation Pathway in Chemical Self-Assembly

See allHide authors and affiliations

Science  07 Jul 2006:
Vol. 313, Issue 5783, pp. 80-83
DOI: 10.1126/science.1127884

You are currently viewing the abstract.

View Full Text


Hierarchical self-assembly offers a powerful strategy for producing molecular nanostructures. Although widely used, the mechanistic details of self-assembly processes are poorly understood. We spectroscopically monitored a nucleation process in the self-assembly of p-conjugated molecules into helical supramolecular fibrillar structures. The data support a nucleation-growth pathway that gives rise to a remarkably high degree of cooperativity. Furthermore, we characterize a helical transition in the nucleating species before growth. The self-assembly process depends strongly on solvent structure, suggesting that an organized shell of solvent molecules plays an explicit role in rigidifying the aggregates and guiding them toward further assembly into bundles and/or gels.

    View Full Text