Microfluidic out-of-equilibrium control of molecular nanotubesKriete, B., Feenstra, C. J. & Pshenichnikov, M. S., 14-May-2020, In : Physical Chemistry Chemical Physics. 22, 18, p. 10179-10188 10 p.
Research output: Contribution to journal › Article › Academic › peer-review
The bottom-up fabrication of functional nanosystems for light-harvesting applications and excitonic devices often relies on molecular self-assembly. Gaining access to the intermediate species involved in self-assembly would provide valuable insights into the pathways via which the final architecture has evolved, yet difficult to achieve due to their intrinsically short-lived nature. Here, we employ a lab-on-a-chip approach as a means to obtain in situ control of the structural complexity of an artificial light-harvesting complex: molecular double-walled nanotubes. Rapid and stable dissolution of the outer wall was realized via microfluidic mixing thereby rendering the thermodynamically unstable inner tubes accessible to spectroscopy. By measurement of the linear dichroism and time-resolved photoluminescence of both double-walled nanotubes and isolated inner tubes we show that the optical (excitonic) properties of the inner tube are remarkably robust to such drastic perturbation of the system's supramolecular structure as removal of the outer wall. The developed platform is readily extendable to a broad range of practical applications such as e.g. self-assembling systems and molecular photonics devices.
|Number of pages||10|
|Journal||Physical Chemistry Chemical Physics|
|Publication status||Published - 14-May-2020|
- EXCITON-EXCITON ANNIHILATION, CARBOCYANINE DYE, J-AGGREGATE, FLUORESCENCE, DIFFUSION, MIGRATION, DYNAMICS, TRANSITIONS, CHEMISTRY, FLOW