AI Article Synopsis
- Supramolecular forces are crucial in controlling the self-assembly and final shapes of nanostructures, yet their specific influence on morphology hasn't been well understood until now.
- The study demonstrated that by adjusting the surrounding conditions, specifically using mixtures of water, methanol, and hydrochloric acid, researchers could control the formation of various nanostructures such as nanotapes, nanoparticles, and hollow nanospheres.
- The key findings include a phase diagram that illustrates how changes in water fraction and hydrochloric acid concentration determine which type of nanostructure forms, giving insights into the precise manipulation of self-assembled morphologies.
Article Abstract
Supramolecular forces govern self-assembly and further determine the final morphologies of self-assemblies. However, how they control the morphology remains hitherto largely unknown. In this paper, we have discovered that the self-assembled nanostructures of rigid organic semiconductor chromophores can be finely controlled by the secondary forces by fine-tuning the surrounding environments. In particular, we used water/methanol/hydrochloric acid to tune the environment and observed five different phases that resulted from versatile molecular self-assemblies. The representative self-assembled nanostructures were nanotapes, nanoparticles and their 1D assemblies, rigid microplates, soft nanoplates, and hollow nanospheres and their 1D assemblies, respectively. The specific nanostructure formation is governed by the water fraction, R(w), and the concentration of hydrochloric acid, [HCl]. For instance, nanotapes formed at low [HCl] and R(w) values, whereas hollow nanospheres formed when either the HCl concentration is high, or the water fraction is low, or both. The significance of this paper is that it provides a useful phase diagram by using R(w) and [HCl] as two variables. Such a self-assembly phase diagram maps out the fine control that the secondary forces have on the self-assembled morphology, and thus allows one to guide the formation toward a desired nanostructure self-assembled from rigid organic semiconductor chromophores by simply adjusting the two key parameters of R(w) and [HCl].
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| http://dx.doi.org/10.1002/chem.201201352 | DOI Listing |
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