Filtern
Dokumenttyp
Schlagworte
- DNA origami (2)
- Amorphous carbon (1)
- DNA Origami (1)
- Einzelmolekülspektroskopie (1)
- Nanolenses (1)
- Nanoparticle dimers (1)
- Nanotechnologie (1)
- Nanotechnology (1)
- Oberflächen verstärkte Raman Streuung (1)
- Protein (1)
Organisationseinheit der BAM
- 1.0 Abteilungsleitung und andere (3) (entfernen)
This study demonstrates the bottom-up synthesis of
silver nanolenses.Arobust coating protocol enabled the
functionalization of differently sized silver nanoparticles with
DNAsingle strands of orthogonal sequence.Coated particles
10 nm, 20 nm, and 60 nm in diameter were self-assembled by
DNAorigami scaffolds to form silver nanolenses.Single
molecules of the protein streptavidin were selectively placed in
the gap of highest electric field enhancement. Streptavidin
labelled with alkyne groups served as model analyte in surface-
enhanced Raman scattering (SERS) experiments.Bycorre-
lated Raman mapping and atomic force microscopy, SERS
signals of the alkyne labels of asingle streptavidin molecule,
from asingle silver nanolens,were detected. The discrete,self-
similar aggregates of solid silver nanoparticles are promising
for plasmonic applications.
Diese Studie demonstriert die Bottom-up-Synthese
von Silbernanolinsen. Ein robustes Beschichtungsprotokoll
ermçglichte die Funktionalisierung unterschiedlich großer
Silbernanopartikel mit einzelstr-ngiger DNAunterschiedlicher
Sequenz. Derartig beschichtete Partikel mit Durchmessern von
10 nm, 20 nm und 60 nm wurden mithilfe von DNA-Origami-
Gergsten zu Silbernanolinsen angeordnet. Ein einzelnes Mo-
lekgldes Proteins Streptavidin ist in demjenigen Spalt zwi-
schenden Partikeln immobilisiert worden, der die hçchste
Feldverst-rkung zur Verfggung stellt. Streptavidin war dabei
mit Alkin-Gruppen modifiziert und fungierte als Modellanalyt
in Experimenten zur oberfl-chenverst-rkten Raman-Streuung
(SERS). Korrelierte Raman- und Rasterkraftmikroskopie-
Messungen ermçglichten die Aufnahme von SERS-Signalen
der Alkingruppen eines einzelnen Streptavidins,von einer
einzelnen Silbernanolinse.Diese diskreten, selbst-hnlichen
Silbernanopartikelaggregate versprechen vielf-ltige Anwen-
dungen im Feld der Plasmonik
Background signals from in situ-formed amorphous carbon, despite not being fully understood, are known to be a common issue in few-molecule surface-enhanced Raman scattering (SERS). Here, discrete gold and silver nanoparticle aggregates assembled by DNA origami were used to study the conditions for the formation of amorphous carbon during SERS measurements. Gold and silver dimers were exposed to laser light of varied power densities and wavelengths. Amorphous carbon prevalently formed on silver aggregates and at high power densities. Time-resolved measurements enabled us to follow the formation of amorphous carbon. Silver nanolenses consisting of three differently-sized silver nanoparticles were used to follow the generation of amorphous carbon at the single-nanostructure level. This allowed observation of the many sharp peaks that constitute the broad amorphous carbon signal found in ensemble measurements. In conclusion, we highlight strategies to prevent amorphous carbon formation, especially for DNA-assembled SERS substrates.