DFG Project
Nanopräzise und multifunktionale Porenfunktionalisierung durch Benetzungssteuerung
Especially in the context of sensing, monitoring and the design of selective or coupled transport phenomena, multifunctional nanopores will be needed.
We used interface effects such as wetting and the combination of orthogonal functionalization strategies and block-co-oligomer formation to place multiple functions into individual nanopores. Furthermore, we developed these strategies towards sensing concepts.
M. Ochs, R. Mohammadi, N. Vogel, A. Andrieu-Brunsen, Wetting-controlled localized placement of surface functionalities within nanopores, Small, 2020, 16, 1906463.
R. Mohammadi, M. Ochs, A. Andrieu-Brunsen, N. Vogel, Effect of Asymmetry on Plasmon Hybridaization and Sensing Capacities of Hole-Disk Arrays, J. Phys. Chem. C, 2019, 124, 4, 2609-2618.
Involved team members: L. Czerwenka, M. Ochs
Collaboration: Prof. Vogel FAU Erlangen
Funding: DFG
