Two-photon direct laser writing (DLW) lithography is limited in the achievable structure size as well as in structure resolution. Adding stimulated emission depletion (STED) to DLW allowed overcoming both restrictions. We now push both to new limits. Using visible light for two-photon DLW (780 nm) and STED (532 nm), we obtain lateral structure sizes of 55 nm, a Sparrow limit of around 100 nm and we present two clearly separated lines spaced only 120 nm apart. The photo-resist used in these experiments is a mixture of tri- and tetra-acrylates and 7-Diethylamino-3-thenoylcoumarin as a photo-starter which can be readily quenched via STED.
Acrylate nanoanchors of subdiffraction-limited diameter are written with optical stimulated emission depletion (STED) lithography. After incubation, 98% of all nanoanchors are loaded quickly with fluorescently labeled antibodies. Controlling the size of the nanoanchors allows for limiting the number of the antibodies. Direct stochastic optical reconstruction microscopy (dSTORM) imaging, statistical distribution of fluorescence, quantitative fluorescence readout, and single molecule blinking consistently prove that 80% of the nanoanchors with a 65 nm diameter are carrying only one antibody each, which are functional as confirmed with live erythrocytes.
Surface
reactive nanostructures were fabricated using stimulated
emission depletion (STED) lithography. The functionalization of the
nanostructures was realized by copolymerization of a bifunctional
metal oxo cluster in the presence of a triacrylate monomer. Ligands
of the cluster surface cross-link to the monomer during the lithographic
process, whereas unreacted mercapto functionalized ligands are transferred
to the polymer and remain reactive after polymer formation of the
surface of the nanostructure. The depletion efficiency in dependence
of the cluster loading was investigated and full depletion of the
STED effect was observed with a cluster loading exceeding 4 wt %.
A feature size by λ/11 was achieved by using a donut-shaped
depletion beam. The reactivity of the mercapto groups on the surface
of the nanostructure was tested by incubation with mercapto-reactive
fluorophores.
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