Towards dielectric relaxation at a single molecule scale
Stetsovych, V; Feigl, Simon; Vranik, Radovan; Wit, Barelt; Rauls, Eva; Samal, Michal; Stary, Ivo; Muellegger, Stefan; Nejedly, Jindrich
Peer reviewed, Journal article
Published version
Permanent lenke
https://hdl.handle.net/11250/3058277Utgivelsesdato
2022Metadata
Vis full innførselSamlinger
Originalversjon
tetsovych, V., Feigl, S., Vranik, R. et al. Towards dielectric relaxation at a single molecule scale. Sci Rep 12, 2865 (2022). 10.1038/s41598-022-06684-9Sammendrag
Dielectric relaxation lies at the heart of well-established techniques of dielectric spectroscopy essential to diverse fields of research and technology. We report an experimental route for increasing the sensitivity of dielectric spectroscopy ultimately towards the scale of a single molecule. We use the method of radio frequency scanning tunneling microscopy to excite a single molecule junction based on a polar substituted helicene molecule by an electric field oscillating at 2–5 GHz. We detect the dielectric relaxation of the single molecule junction indirectly via its effect of power dissipation, which causes lateral displacement. From our data we determine a corresponding relaxation time of about 300 ps—consistent with literature values of similar helicene derivatives obtained by conventional methods of dielectric spectroscopy.